import {TextDecoder, TextEncoder} from "node:util";
import {Zcl} from "zigbee-herdsman";
import * as fz from "../converters/fromZigbee";
import * as tz from "../converters/toZigbee";
import * as libColor from "../lib/color";
import {ColorMode, colorModeLookup} from "../lib/constants";
import * as exposes from "../lib/exposes";
import * as legacy from "../lib/legacy";
import {logger} from "../lib/logger";
import * as m from "../lib/modernExtend";
import * as reporting from "../lib/reporting";
import * as globalStore from "../lib/store";
import * as tuya from "../lib/tuya";
import type {DefinitionWithExtend, Expose, Fz, KeyValue, KeyValueAny, KeyValueString, Tz, Zh} from "../lib/types";
import * as utils from "../lib/utils";
import {addActionGroup, hasAlreadyProcessedMessage, postfixWithEndpointName} from "../lib/utils";
import * as zosung from "../lib/zosung";

const NS = "zhc:tuya";
const {tuyaLight, tuyaBase, tuyaMagicPacket, dpBinary, dpNumeric, dpEnumLookup, tuyaWeatherForecast} = tuya.modernExtend;

const e = exposes.presets;
const ea = exposes.access;

const fzZosung = zosung.fzZosung;
const tzZosung = zosung.tzZosung;
const ez = zosung.presetsZosung;

interface TuyaGenOnOff {
    attributes: never;
    commands: {tuyaCountdown: {data: Buffer}};
    commandResponses: never;
}

interface Ts0049Countdown {
    attributes: never;
    commands: {setCountdown: {data: Buffer}};

    commandResponses: never;
}
const storeLocal = {
    getPrivatePJ1203A: (device: Zh.Device) => {
        let priv = globalStore.getValue(device, "private_state");
        if (priv === undefined) {
            //
            // The PJ-1203A is sending quick sequences of messages containing a single datapoint.
            // A sequence occurs every `update_frequency` seconds (10s by default)
            //
            // A typical sequence is composed of two identical groups for channel a and b.
            //
            //     102 energy_flow_a
            //     112 voltage
            //     113 current_a
            //     101 power_a
            //     110 power_factor_a
            //     111 ac_frequency
            //     115 power_ab
            //     ---
            //     104 energy_flow_b
            //     112 voltage
            //     114 current_b
            //     105 power_b
            //     121 power_factor_b
            //     111 ac_frequency
            //     115 power_ab
            //
            // It should be noted that when no current is detected on channel x then
            // energy_flow_x is not emitted and current_x==0, power_x==0 and power_factor_x==100.
            //
            // The other datapoints are emitted every few minutes.
            //
            // There is a known issue on the _TZE204_81yrt3lo (with appVersion 74, stackVersion 0 and hwVersion 1).
            // The energy_flow datapoints are (incorrectly) emitted during the next update. This is quite problematic
            // because that means that the direction can be inverted for up to update_frequency seconds.
            //
            // The features implemented here are
            //   - cache the datapoints for each channel and publish them together.
            //   - (OPTIONAL) solve the issue described above by waiting for the next energy flow datapoint
            //     before publishing the cached channel data.
            //   - (OPTIONAL) provide signed power instead of energy flow.
            //   - detect missing or reordered Zigbee message using the Tuya 'seq' attribute and invalidate
            //     cached data accordingly.
            //
            priv = {
                // Cached values for both channels
                sign_a: null,
                sign_b: null,
                power_a: null,
                power_b: null,
                current_a: null,
                current_b: null,
                power_factor_a: null,
                power_factor_b: null,
                timestamp_a: null,
                timestamp_b: null,
                // Used to detect missing or misordered messages.
                last_seq: -99999,
                // Do all PJ-1203A increment seq by 256? If not, then this is
                // the value that will have to be customized.
                seq_inc: 256,
                // Also need to save the last published SIGNED values of
                // power_a and power_b to recompute power_ab on the fly.
                pub_power_a: null,
                pub_power_b: null,

                recompute_power_ab: function (result: KeyValueAny) {
                    let modified = false;
                    if ("power_a" in result) {
                        this.pub_power_a = result.power_a * (result.energy_flow_a === "producing" ? -1 : 1);
                        modified = true;
                    }
                    if ("power_b" in result) {
                        this.pub_power_b = result.power_b * (result.energy_flow_b === "producing" ? -1 : 1);
                        modified = true;
                    }
                    if (modified) {
                        if (this.pub_power_a !== null && this.pub_power_b !== null) {
                            // Cancel and reapply the scaling by 10 to avoid floating-point rounding errors
                            // such as 79.8 - 37.1 = 42.699999999999996
                            result.power_ab = Math.round(10 * this.pub_power_a + 10 * this.pub_power_b) / 10;
                        }
                    }
                },

                flush: function (result: KeyValueAny, channel: string, options: KeyValue) {
                    const sign = this[`sign_${channel}`];
                    const power = this[`power_${channel}`];
                    const current = this[`current_${channel}`];
                    const powerFactor = this[`power_factor_${channel}`];
                    this[`sign_${channel}`] = this[`power_${channel}`] = this[`current_${channel}`] = this[`power_factor_${channel}`] = null;
                    // Only publish if the set is complete otherwise discard everything.
                    if (sign !== null && power !== null && current !== null && powerFactor !== null) {
                        const signedPowerKey = `signed_power_${channel}`;
                        const invertedEnergyFlowKey = `invert_energy_flow_${channel}`;
                        const signedPower = options[signedPowerKey] != null ? options[signedPowerKey] : false;
                        const invertedEnergyFlow = options[invertedEnergyFlowKey] != null ? options[invertedEnergyFlowKey] : false;
                        if (signedPower) {
                            result[`power_${channel}`] = sign * power;
                            result[`energy_flow_${channel}`] = "sign";
                        } else {
                            result[`power_${channel}`] = power;
                            result[`energy_flow_${channel}`] = sign * (invertedEnergyFlow ? -1 : 1) >= 0 ? "consuming" : "producing";
                        }
                        result[`timestamp_${channel}`] = this[`timestamp_${channel}`];
                        result[`current_${channel}`] = current;
                        result[`power_factor_${channel}`] = powerFactor;
                        this.recompute_power_ab(result);
                        return true;
                    }
                    return false;
                },

                // When the device does not detect any flow, it stops sending
                // the energy_flow datapoint (102 and 104) and always set
                // current_x=0, power_x=0 and power_factor_x=100.
                //
                // So if we see a datapoint with current==0 or power==0
                // then we can safely assume that we are in that zero energy state.
                //
                // Also, the publication of a zero energy state is not delayed
                // when option late_energy_flow_a|b is set.
                flushZero: function (result: KeyValueAny, channel: string, options: KeyValue) {
                    this[`sign_${channel}`] = +1;
                    this[`power_${channel}`] = 0;
                    this[`timestamp_${channel}`] = new Date().toISOString();
                    this[`current_${channel}`] = 0;
                    this[`power_factor_${channel}`] = 100;
                    this.flush(result, channel, options);
                },
                // Some times the device sends a single zero value (either power or current).
                // This is most likely a glitch. We flush all values but set them to null
                // to indicate that they are not valid.
                //
                flushNull: function (result: KeyValueAny, channel: string, options: KeyValue) {
                    this[`sign_${channel}`] = null;
                    this[`power_${channel}`] = null;
                    this[`current_${channel}`] = null;
                    this[`power_factor_${channel}`] = null;
                    this.flush(result, channel, options);
                },

                clear: () => {
                    priv.sign_a = null;
                    priv.sign_b = null;
                    priv.power_a = null;
                    priv.power_b = null;
                    priv.current_a = null;
                    priv.current_b = null;
                    priv.power_factor_a = null;
                    priv.power_factor_b = null;
                    // Used to detect single zero values
                    priv.zero_power_a = null;
                    priv.zero_power_b = null;
                    priv.zero_current_a = null;
                    priv.zero_current_b = null;
                },
            };
            globalStore.putValue(device, "private_state", priv);
        }
        return priv;
    },
};

const convLocal = {
    energyFlowPJ1203A: (channel: string) => {
        return {
            from: (v: number, meta: Fz.Meta, options: KeyValue) => {
                const priv = storeLocal.getPrivatePJ1203A(meta.device);
                const result = {};
                priv[`sign_${channel}`] = v === 1 ? -1 : +1;
                const lateEnergyFlowKey = `late_energy_flow_${channel}`;
                const lateEnergyFlow = options[lateEnergyFlowKey] != null ? options[lateEnergyFlowKey] : false;
                if (lateEnergyFlow) {
                    priv.flush(result, channel, options);
                }
                return result;
            },
        };
    },

    powerPJ1203A: (channel: string) => {
        return {
            from: (v: number, meta: Fz.Meta, options: KeyValue) => {
                const priv = storeLocal.getPrivatePJ1203A(meta.device);
                const result = {};
                priv[`power_${channel}`] = v / 10;
                priv[`timestamp_${channel}`] = new Date().toISOString();
                if (v === 0) {
                    const singleZeroRemoveKey = "single_zero_remove";
                    const singleZeroRemove = options[singleZeroRemoveKey] != null ? options[singleZeroRemoveKey] : false;
                    if (singleZeroRemove && !priv[`zero_power_${channel}`]) {
                        logger.info("[PJ1203A] power is zero, flushing one time", NS);
                        priv.flushNull(result, channel, options);
                    } else {
                        priv.flushZero(result, channel, options);
                    }
                    priv[`zero_power_${channel}`] = true;
                } else {
                    priv[`zero_power_${channel}`] = false;
                }
                return result;
            },
        };
    },

    currentPJ1203A: (channel: string) => {
        return {
            from: (v: number, meta: Fz.Meta, options: KeyValue) => {
                const priv = storeLocal.getPrivatePJ1203A(meta.device);
                const result = {};
                priv[`current_${channel}`] = v / 1000;
                if (v === 0) {
                    const singleZeroRemoveKey = "single_zero_remove";
                    const singleZeroRemove = options[singleZeroRemoveKey] != null ? options[singleZeroRemoveKey] : false;
                    if (singleZeroRemove && !priv[`zero_current_${channel}`]) {
                        logger.info("[PJ1203A] current is zero, flushing one time", NS);
                        priv.flushNull(result, channel, options);
                    } else {
                        priv.flushZero(result, channel, options);
                    }
                    priv[`zero_current_${channel}`] = true;
                } else {
                    priv[`zero_current_${channel}`] = false;
                }
                return result;
            },
        };
    },

    powerFactorPJ1203A: (channel: string) => {
        return {
            from: (v: number, meta: Fz.Meta, options: KeyValue) => {
                const priv = storeLocal.getPrivatePJ1203A(meta.device);
                const result = {};
                priv[`power_factor_${channel}`] = v;
                const lateEnergyFlowKey = `late_energy_flow_${channel}`;
                const lateEnergyFlow = options[lateEnergyFlowKey] != null ? options[lateEnergyFlowKey] : false;
                if (!lateEnergyFlow) {
                    priv.flush(result, channel, options);
                }
                return result;
            },
        };
    },

    powerAbPJ1203A: () => {
        return {
            // power_ab datapoint is broken and will be recomputed so ignore it.
            from: (v: number, meta: Fz.Meta, options: KeyValue) => {
                return {};
            },
        };
    },

    energyForwardPJ1203A: (channel: string) => {
        return {
            from: (v: number, meta: Fz.Meta, options: KeyValue) => {
                const invertedEnergyFlowKey = `invert_energy_flow_${channel}`;
                const result_key = options[invertedEnergyFlowKey] ? `energy_produced_${channel}` : `energy_${channel}`;
                const result = {} as KeyValueAny;
                result[result_key] = v / 100;

                return result;
            },
        };
    },

    energyReversePJ1203A: (channel: string) => {
        return {
            from: (v: number, meta: Fz.Meta, options: KeyValue) => {
                const invertedEnergyFlowKey = `invert_energy_flow_${channel}`;
                const result_key = options[invertedEnergyFlowKey] ? `energy_${channel}` : `energy_produced_${channel}`;
                const result = {} as KeyValueAny;
                result[result_key] = v / 100;

                return result;
            },
        };
    },

    sceneCubeAction: () => {
        const lookup = ["side_1", "side_2", "side_3", "side_4", "knock", "shake"];
        const expose = e.action(lookup);
        return [
            tuya.modernExtend.dpEnumLookup({
                dp: 0x01,
                name: "action",
                type: tuya.dataTypes.bool,
                readOnly: true,
                expose: expose,
                lookup: {side_1: 0},
            }),
            tuya.modernExtend.dpEnumLookup({
                dp: 0x02,
                name: "action",
                type: tuya.dataTypes.bool,
                readOnly: true,
                expose: expose,
                lookup: {side_2: 0},
            }),
            tuya.modernExtend.dpEnumLookup({
                dp: 0x03,
                name: "action",
                type: tuya.dataTypes.bool,
                readOnly: true,
                expose: expose,
                lookup: {side_3: 0},
            }),
            tuya.modernExtend.dpEnumLookup({
                dp: 0x04,
                name: "action",
                type: tuya.dataTypes.bool,
                readOnly: true,
                expose: expose,
                lookup: {side_4: 0},
            }),
            tuya.modernExtend.dpEnumLookup({
                dp: 0x05,
                name: "action",
                type: tuya.dataTypes.bool,
                readOnly: true,
                expose: expose,
                lookup: {knock: 0},
            }),
            tuya.modernExtend.dpEnumLookup({
                dp: 0x06,
                name: "action",
                type: tuya.dataTypes.bool,
                readOnly: true,
                expose: expose,
                lookup: {shake: 0},
            }),
        ];
    },
    name: {
        to: (v: string, meta: Tz.Meta) => {
            const utf8bytes = new TextEncoder().encode(v);
            return Array.from(utf8bytes, (utf8bytes) => utf8bytes.toString(16).padStart(4, "0")).join("");
        },
        from: (v: string, meta: Fz.Meta) => {
            const bytes = [];
            for (let i = 0; i < v.length; i += 4) {
                bytes.push(Number.parseInt(v.slice(i, i + 4), 16));
            }
            const hexToBytes = Uint8Array.from(bytes);
            return new TextDecoder("utf-8").decode(hexToBytes);
        },
    },
    nameTrunc: {
        to: (v: string, meta: Tz.Meta, len = 8) => {
            const truncated = v.slice(0, len);
            const utf8bytes = new TextEncoder().encode(truncated);
            return Array.from(utf8bytes, (utf8bytes) => utf8bytes.toString(16).padStart(4, "0")).join("");
        },
        from: (v: string, meta: Fz.Meta) => {
            const bytes = [];
            for (let i = 0; i < v.length; i += 4) {
                bytes.push(Number.parseInt(v.slice(i, i + 4), 16));
            }
            const hexToBytes = Uint8Array.from(bytes);
            return new TextDecoder("utf-8").decode(hexToBytes);
        },
    },
};

const tzLocal = {
    ts0049_countdown: {
        key: ["water_countdown"],
        convertSet: async (entity, key, value, meta) => {
            utils.assertNumber(value);
            const data = Buffer.alloc(5);
            const scaledValue = value * 60; //
            data.writeUInt32BE(scaledValue, 1); //
            data[0] = 0x0b; //

            await entity.command<"manuSpecificTuyaE001", "setCountdown", Ts0049Countdown>("manuSpecificTuyaE001", "setCountdown", {data});
        },
    } satisfies Tz.Converter,

    ts110eCountdown: {
        key: ["countdown"],
        convertSet: async (entity, key, value, meta) => {
            utils.assertNumber(value);
            const data = Buffer.alloc(4);
            data.writeUInt32LE(value);
            await entity.command<"genOnOff", "tuyaCountdown", TuyaGenOnOff>("genOnOff", "tuyaCountdown", {data});
        },
    } satisfies Tz.Converter,
    // biome-ignore lint/style/useNamingConvention: ignored using `--suppress`
    TS030F_border: {
        key: ["border"],
        convertSet: async (entity, key, value, meta) => {
            const lookup = {up: 0, down: 1, up_delete: 2, down_delete: 3};
            await entity.write(0xe001, {
                57345: {value: utils.getFromLookup(value, lookup), type: 0x30},
            });
        },
    } satisfies Tz.Converter,
    // biome-ignore lint/style/useNamingConvention: ignored using `--suppress`
    TS0726_switch_mode: {
        key: ["switch_mode"],
        convertSet: async (entity, key, value, meta) => {
            await entity.write(0xe001, {
                53280: {
                    value: utils.getFromLookup(value, {switch: 0, scene: 1}),
                    type: 0x30,
                },
            });
            return {state: {switch_mode: value}};
        },
    } satisfies Tz.Converter,
    led_control: {
        key: ["brightness", "color", "color_temp", "transition"],
        options: [exposes.options.color_sync()],
        convertSet: async (entity, _key, _value, meta) => {
            const newState: KeyValue = {};

            // The color mode encodes whether the light is using its white LEDs or its color LEDs
            let colorMode = meta.state.color_mode ?? colorModeLookup[ColorMode.ColorTemp];

            // Color mode switching is done by setting color temperature (switch to white LEDs) or setting color (switch
            // to color LEDs)
            if ("color_temp" in meta.message) colorMode = colorModeLookup[ColorMode.ColorTemp];
            if ("color" in meta.message) colorMode = colorModeLookup[ColorMode.HS];

            if (colorMode !== meta.state.color_mode) {
                newState.color_mode = colorMode;

                // To switch between white mode and color mode, we have to send a special command:
                const rgbMode = colorMode === colorModeLookup[ColorMode.HS] ? 1 : 0;
                await entity.command("lightingColorCtrl", "tuyaRgbMode", {
                    enable: rgbMode,
                });
            }

            // A transition time of 0 would be treated as about 1 second, probably some kind of fallback/default
            // transition time, so for "no transition" we use 1 (tenth of a second).
            const transtime = typeof meta.message.transition === "number" ? meta.message.transition * 10 : 0.1;

            if (colorMode === colorModeLookup[ColorMode.ColorTemp]) {
                if ("brightness" in meta.message) {
                    await entity.command(
                        "genLevelCtrl",
                        "moveToLevel",
                        {level: Number(meta.message.brightness), transtime},
                        utils.getOptions(meta.mapped, entity),
                    );
                    newState.brightness = meta.message.brightness;
                }

                if ("color_temp" in meta.message) {
                    await entity.command(
                        "lightingColorCtrl",
                        "moveToColorTemp",
                        {
                            colortemp: meta.message.color_temp as number,
                            transtime: transtime,
                        },
                        utils.getOptions(meta.mapped, entity),
                    );
                    newState.color_temp = meta.message.color_temp;
                }
            } else if (colorMode === colorModeLookup[ColorMode.HS]) {
                if ("brightness" in meta.message || "color" in meta.message) {
                    // We ignore the brightness of the color and instead use the overall brightness setting of the lamp
                    // for the brightness because I think that's the expected behavior and also because the color
                    // conversion below always returns 100 as brightness ("value") even for very dark colors, except
                    // when the color is completely black/zero.

                    // Load current state or defaults
                    const newSettings = {
                        brightness: meta.state.brightness ?? 254, //      full brightness
                        // @ts-expect-error ignore
                        hue: meta.state.color?.hue ?? 0, //          red
                        // @ts-expect-error ignore
                        saturation: meta.state.color?.saturation ?? 100, // full saturation
                    };

                    // Apply changes
                    if ("brightness" in meta.message) {
                        newSettings.brightness = meta.message.brightness;
                        newState.brightness = meta.message.brightness;
                    }
                    if ("color" in meta.message) {
                        // The Z2M UI sends `{ hex:'#xxxxxx' }`.
                        // Home Assistant sends `{ h: xxx, s: xxx }`.
                        // We convert the former into the latter.
                        const c = libColor.Color.fromConverterArg(meta.message.color);
                        if (c.isRGB()) {
                            // https://github.com/Koenkk/zigbee2mqtt/issues/13421#issuecomment-1426044963
                            c.hsv = c.rgb.gammaCorrected().toXY().toHSV();
                        }
                        const color = c.hsv;

                        newSettings.hue = color.hue;
                        newSettings.saturation = color.saturation;

                        newState.color = {
                            hue: color.hue,
                            saturation: color.saturation,
                        };
                    }

                    // Convert to device specific format and send
                    const brightness = utils.toNumber(newSettings.brightness, "brightness");
                    const zclData = {
                        brightness: utils.mapNumberRange(brightness, 0, 254, 0, 1000),
                        hue: newSettings.hue,
                        saturation: utils.mapNumberRange(newSettings.saturation, 0, 100, 0, 1000),
                    };
                    // This command doesn't support a transition time
                    await entity.command(
                        "lightingColorCtrl",
                        "tuyaMoveToHueAndSaturationBrightness2",
                        zclData,
                        utils.getOptions(meta.mapped, entity),
                    );
                }
            }

            // If we're in white mode, calculate a matching display color for the set color temperature. This also kind
            // of works in the other direction.
            Object.assign(newState, libColor.syncColorState(newState, meta.state, entity, meta.options));

            return {state: newState};
        },
        convertGet: async (entity, key, meta) => {
            await entity.read("genLevelCtrl", ["currentLevel"]);
            await entity.read("lightingColorCtrl", ["currentHue", "currentSaturation", "tuyaRgbMode", "colorTemperature"]);
        },
    } satisfies Tz.Converter,
    // biome-ignore lint/style/useNamingConvention: ignored using `--suppress`
    TS0504B_color: {
        key: ["color"],
        convertSet: async (entity, key, value, meta) => {
            const color = libColor.Color.fromConverterArg(value);
            const enableWhite =
                (color.isRGB() && color.rgb.red === 1 && color.rgb.green === 1 && color.rgb.blue === 1) ||
                // Zigbee2MQTT frontend white value
                (color.isXY() && (color.xy.x === 0.3125 || color.xy.y === 0.32894736842105265)) ||
                // Home Assistant white color picker value
                (color.isXY() && (color.xy.x === 0.323 || color.xy.y === 0.329));

            if (enableWhite) {
                await entity.command("lightingColorCtrl", "tuyaRgbMode", {enable: 0});
                const newState: KeyValue = {color_mode: "xy"};
                if (color.isXY()) {
                    newState.color = color.xy;
                } else {
                    newState.color = color.rgb.gammaCorrected().toXY().rounded(4);
                }
                return {
                    state: libColor.syncColorState(newState, meta.state, entity, meta.options) as KeyValue,
                };
            }
            return await tz.light_color.convertSet(entity, key, value, meta);
        },
        convertGet: tz.light_color.convertGet,
    } satisfies Tz.Converter,
    TS0224: {
        key: ["light", "duration", "volume"],
        convertSet: async (entity, key, value, meta) => {
            if (key === "light") {
                utils.assertString(value, "light");
                await entity.command("genOnOff", value.toLowerCase() === "on" ? "on" : "off", {}, utils.getOptions(meta.mapped, entity));
            } else if (key === "duration") {
                await entity.write("ssIasWd", {maxDuration: value as number}, utils.getOptions(meta.mapped, entity));
            } else if (key === "volume") {
                const lookup: KeyValue = {mute: 0, low: 10, medium: 30, high: 50};
                utils.assertString(value, "volume");
                const lookupValue = lookup[value];
                // biome-ignore lint/style/noParameterAssign: ignored using `--suppress`
                value = value.toLowerCase();
                utils.validateValue(value, Object.keys(lookup));
                await entity.write("ssIasWd", {2: {value: lookupValue, type: 0x0a}}, utils.getOptions(meta.mapped, entity));
            }
            return {state: {[key]: value}};
        },
    } satisfies Tz.Converter,
    temperature_unit: {
        key: ["temperature_unit"],
        convertSet: async (entity, key, value, meta) => {
            switch (key) {
                case "temperature_unit": {
                    utils.assertString(value, "temperature_unit");
                    await entity.write("manuSpecificTuya2", {
                        "57355": {value: {celsius: 0, fahrenheit: 1}[value], type: 48},
                    });
                    break;
                }
                default: // Unknown key
                    logger.warning(`Unhandled key ${key}`, NS);
            }
        },
    } satisfies Tz.Converter,
    // biome-ignore lint/style/useNamingConvention: ignored using `--suppress`
    TS011F_threshold: {
        key: [
            "temperature_threshold",
            "temperature_breaker",
            "power_threshold",
            "power_breaker",
            "over_current_threshold",
            "over_current_breaker",
            "over_voltage_threshold",
            "over_voltage_breaker",
            "under_voltage_threshold",
            "under_voltage_breaker",
        ],
        convertSet: async (entity, key, value, meta) => {
            const onOffLookup = {on: 1, off: 0};
            switch (key) {
                case "temperature_threshold": {
                    const state = meta.state.temperature_breaker;
                    const buf = Buffer.from([5, utils.getFromLookup(state, onOffLookup), 0, utils.toNumber(value, "temperature_threshold")]);
                    await entity.command("manuSpecificTuya3", "setOptions2", {
                        data: buf,
                    });
                    break;
                }
                case "temperature_breaker": {
                    const threshold = meta.state.temperature_threshold;
                    const number = utils.toNumber(threshold, "temperature_threshold");
                    const buf = Buffer.from([5, utils.getFromLookup(value, onOffLookup), 0, number]);
                    await entity.command("manuSpecificTuya3", "setOptions2", {
                        data: buf,
                    });
                    break;
                }
                case "power_threshold": {
                    const state = meta.state.power_breaker;
                    const buf = Buffer.from([7, utils.getFromLookup(state, onOffLookup), 0, utils.toNumber(value, "power_breaker")]);
                    await entity.command("manuSpecificTuya3", "setOptions2", {
                        data: buf,
                    });
                    break;
                }
                case "power_breaker": {
                    const threshold = meta.state.power_threshold;
                    const number = utils.toNumber(threshold, "power_breaker");
                    const buf = Buffer.from([7, utils.getFromLookup(value, onOffLookup), 0, number]);
                    await entity.command("manuSpecificTuya3", "setOptions2", {
                        data: buf,
                    });
                    break;
                }
                case "over_current_threshold": {
                    const state = meta.state.over_current_breaker;
                    const buf = Buffer.from([1, utils.getFromLookup(state, onOffLookup), 0, utils.toNumber(value, "over_current_threshold")]);
                    await entity.command("manuSpecificTuya3", "setOptions3", {
                        data: buf,
                    });
                    break;
                }
                case "over_current_breaker": {
                    const threshold = meta.state.over_current_threshold;
                    const number = utils.toNumber(threshold, "over_current_threshold");
                    const buf = Buffer.from([1, utils.getFromLookup(value, onOffLookup), 0, number]);
                    await entity.command("manuSpecificTuya3", "setOptions3", {
                        data: buf,
                    });
                    break;
                }
                case "over_voltage_threshold": {
                    const state = meta.state.over_voltage_breaker;
                    const buf = Buffer.alloc(4);
                    buf.writeUInt8(3, 0);
                    buf.writeUInt8(utils.getFromLookup(state, onOffLookup), 1);
                    buf.writeUInt16BE(utils.toNumber(value, "over_voltage_threshold"), 2);
                    await entity.command("manuSpecificTuya3", "setOptions3", {
                        data: buf,
                    });
                    break;
                }
                case "over_voltage_breaker": {
                    const threshold = meta.state.over_voltage_threshold;
                    const number = utils.toNumber(threshold, "over_voltage_threshold");
                    const buf = Buffer.from([3, utils.getFromLookup(value, onOffLookup), 0, number]);
                    await entity.command("manuSpecificTuya3", "setOptions3", {
                        data: buf,
                    });
                    break;
                }
                case "under_voltage_threshold": {
                    const state = meta.state.under_voltage_breaker;
                    const buf = Buffer.from([4, utils.getFromLookup(state, onOffLookup), 0, utils.toNumber(value, "under_voltage_threshold")]);
                    await entity.command("manuSpecificTuya3", "setOptions3", {
                        data: buf,
                    });
                    break;
                }
                case "under_voltage_breaker": {
                    const threshold = meta.state.under_voltage_threshold;
                    const number = utils.toNumber(threshold, "under_voltage_breaker");
                    const buf = Buffer.from([4, utils.getFromLookup(value, onOffLookup), 0, number]);
                    await entity.command("manuSpecificTuya3", "setOptions3", {
                        data: buf,
                    });
                    break;
                }
                default: // Unknown key
                    logger.warning(`Unhandled key ${key}`, NS);
            }
        },
    } satisfies Tz.Converter,
    invert_cover_percent_fix: {
        key: ["state", "position"],
        convertSet: async (entity, key, value, meta) => {
            const shouldInvert = key === "position" && meta.options.cover_position_percent_fix;
            const newValue = shouldInvert ? 100 - Number(value) : value;
            return await legacy.toZigbee.tuya_cover_control.convertSet(entity, key, newValue, meta);
        },
    } satisfies Tz.Converter,
    // biome-ignore lint/style/useNamingConvention: ignored using `--suppress`
    TS0505B_1_transitionFixesOnOffBrightness: {
        ...tz.light_onoff_brightness,
        convertSet: async (entity, key, value, meta) => {
            // This light has two issues:
            // 1. If passing transition = 0, it will behave as if transition = 1s.
            // 2. If turning off with a transition, and turning on during the transition, it will turn off
            //    at the end of the first transition timer, despite order to turn on

            // Workaround for issue 1: patch transition in input message
            const transition = utils.getTransition(entity, "brightness", meta);
            let transitionSeconds = transition.time / 10;
            let newMeta = meta;
            if (transitionSeconds === 0) {
                const {message} = meta;
                const wantedState = message.state != null ? (typeof message.state === "string" ? message.state.toLowerCase() : null) : undefined;
                newMeta = {...meta}; // Clone meta to avoid modifying the original
                if (wantedState === "off") {
                    // Erase transition because that way we get actual instant turn off
                    newMeta.message = {state: "OFF"};
                } else {
                    // Best we can do is set the transition to 0.1 seconds
                    // That is the same thing as is done for TS0505B_2
                    transitionSeconds = 0.1;
                    newMeta.message = {...message, transition: transitionSeconds}; // Will get re-parsed by original light_onoff_brightness
                }
            }

            const ret = await tz.light_onoff_brightness.convertSet(entity, key, value, newMeta);

            // Workaround for issue 2:
            // Get the current state of the light after transition time + 0.1s
            // This won't fix the light's state, but at least it will make us aware that it's off,
            // allowing user apps to turn it on again if needed.
            // This could probably be improved by actually turning it on again if necessary.
            if (transitionSeconds !== 0) {
                setTimeout(
                    () => {
                        tz.on_off.convertGet(entity, "state", meta).catch((error) => {
                            logger.warning(`Error getting state of TS0505B_1 after transition: ${error.message}`, NS);
                        });
                    },
                    transitionSeconds * 1000 + 100,
                );
            }

            return ret;
        },
    } satisfies Tz.Converter,
    // biome-ignore lint/style/useNamingConvention: ignored using `--suppress`
    TS0601_knob_dimmer_switch_group_id: {
        key: ["group_id"],
        convertSet: async (entity, key, value, meta) => {
            // The device uses custom group command known from miboxer switches to bind to a group.

            await entity.command("genGroups", "miboxerSetZones", {
                zones: [{zoneNum: 1, groupId: Number(value)}],
            });
        },
    } satisfies Tz.Converter,
    // biome-ignore lint/style/useNamingConvention: ignored using `--suppress`
    TS0004_backlight_mode: {
        key: ["backlight_mode"],
        convertSet: async (entity, key, value, meta) => {
            const lookup = {red_when_on: 0, pink_when_on: 1, red_on_blue_off: 2, pink_on_blue_off: 3};
            const modeValue = utils.getFromLookup(value, lookup);
            await entity.write("genOnOff", {tuyaBacklightMode: modeValue});
            return {state: {backlight_mode: value}};
        },
    } satisfies Tz.Converter,
};

const fzLocal = {
    TLSR82xxAction: {
        cluster: "genOnOff",
        type: ["attributeReport", "readResponse"],
        convert: (model, msg, publish, options, meta) => {
            if (Object.hasOwn(msg.data, "onOff")) {
                const btn = msg.endpoint.ID;
                const state = msg.data["onOff"] === 1 ? "on" : "off";
                return {action: `${state}_${btn}`};
            }
        },
    } satisfies Fz.Converter<"genOnOff", undefined, ["attributeReport", "readResponse"]>,
    // biome-ignore lint/style/useNamingConvention: ignored using `--suppress`
    TS0726_action: {
        cluster: "genOnOff",
        type: ["commandTuyaAction"],
        convert: (model, msg, publish, options, meta) => {
            return {action: `scene_${msg.endpoint.ID}`};
        },
    } satisfies Fz.Converter<"genOnOff", undefined, ["commandTuyaAction"]>,
    // biome-ignore lint/style/useNamingConvention: ignored using `--suppress`
    TS0222_humidity: {
        ...fz.humidity,
        convert: (model, msg, publish, options, meta) => {
            const result = fz.humidity.convert(model, msg, publish, options, meta) as KeyValueAny;
            if (result) result.humidity *= 10;
            return result;
        },
    } satisfies Fz.Converter<"msRelativeHumidity", undefined, ["attributeReport", "readResponse"]>,
    scene_recall: {
        cluster: "genScenes",
        type: "commandRecall",
        convert: (model, msg, publish, options, meta) => {
            if (hasAlreadyProcessedMessage(msg, model)) return;
            const payload = {
                action: postfixWithEndpointName(`scene_${msg.data.sceneid}`, msg, model, meta),
            };
            addActionGroup(payload, msg, model);
            return payload;
        },
    } satisfies Fz.Converter<"genScenes", undefined, "commandRecall">,
    scenes_recall_scene_65029: {
        cluster: "65029",
        type: ["raw", "attributeReport"],
        convert: (model, msg, publish, options, meta) => {
            const id = meta.device.modelID === "005f0c3b" ? msg.data[0] : msg.data[msg.data.length - 1];
            return {action: `scene_${id}`};
        },
    } satisfies Fz.Converter<"65029", undefined, ["raw", "attributeReport"]>,
    // biome-ignore lint/style/useNamingConvention: ignored using `--suppress`
    TS0201_battery: {
        cluster: "genPowerCfg",
        type: ["attributeReport", "readResponse"],
        convert: (model, msg, publish, options, meta) => {
            // https://github.com/Koenkk/zigbee2mqtt/issues/11470
            // https://github.com/Koenkk/zigbee-herdsman-converters/pull/8246
            if (
                msg.data.batteryPercentageRemaining === 200 &&
                msg.data.batteryVoltage < 30 &&
                !["_TZ3000_lqmvrwa2"].includes(meta.device.manufacturerName)
            )
                return;
            return fz.battery.convert(model, msg, publish, options, meta);
        },
    } satisfies Fz.Converter<"genPowerCfg", undefined, ["attributeReport", "readResponse"]>,
    // biome-ignore lint/style/useNamingConvention: ignored using `--suppress`
    TS0201_humidity: {
        ...fz.humidity,
        convert: (model, msg, publish, options, meta) => {
            if (["_TZ3210_ncw88jfq", "_TZ3000_ywagc4rj", "_TZ3000_isw9u95y", "_TZ3000_yupc0pb7"].includes(meta.device.manufacturerName)) {
                msg.data.measuredValue *= 10;
            }
            return fz.humidity.convert(model, msg, publish, options, meta);
        },
    } satisfies Fz.Converter<"msRelativeHumidity", undefined, ["attributeReport", "readResponse"]>,
    humidity10: {
        cluster: "msRelativeHumidity",
        type: ["attributeReport", "readResponse"],
        convert: (model, msg, publish, options, meta) => {
            const humidity = msg.data.measuredValue / 10.0;
            if (humidity >= 0 && humidity <= 100) {
                return {humidity};
            }
        },
    } satisfies Fz.Converter<"msRelativeHumidity", undefined, ["attributeReport", "readResponse"]>,
    temperature_unit: {
        cluster: "manuSpecificTuya2",
        type: ["attributeReport", "readResponse"],
        convert: (model, msg, publish, options, meta) => {
            const result: KeyValue = {};
            if (msg.data["57355"] !== undefined) {
                result.temperature_unit = utils.getFromLookup(msg.data["57355"], {
                    "0": "celsius",
                    "1": "fahrenheit",
                });
            }
            return result;
        },
    } satisfies Fz.Converter<"manuSpecificTuya2", undefined, ["attributeReport", "readResponse"]>,
    // biome-ignore lint/style/useNamingConvention: ignored using `--suppress`
    TS011F_electrical_measurement: {
        ...fz.electrical_measurement,
        convert: (model, msg, publish, options, meta) => {
            const result = (fz.electrical_measurement.convert(model, msg, publish, options, meta) as KeyValueAny) ?? {};
            const lookup: KeyValueString = {
                power: "activePower",
                current: "rmsCurrent",
                voltage: "rmsVoltage",
            };

            // Wait 5 seconds before reporting a 0 value as this could be an invalid measurement.
            // https://github.com/Koenkk/zigbee2mqtt/issues/16709#issuecomment-1509599046
            if (result) {
                for (const key of ["power", "current", "voltage"]) {
                    if (key in result) {
                        const value = result[key];
                        clearTimeout(globalStore.getValue(msg.endpoint, key));
                        if (value === 0) {
                            const configuredReporting = msg.endpoint.configuredReportings.find(
                                (c) => c.cluster.name === "haElectricalMeasurement" && c.attribute.name === lookup[key],
                            );
                            const time = (configuredReporting ? configuredReporting.minimumReportInterval : 5) * 2 + 1;
                            globalStore.putValue(
                                msg.endpoint,
                                key,
                                setTimeout(() => {
                                    const payload = {[key]: value};
                                    // Device takes a lot of time to report power 0 in some cases. When current == 0 we can assume power == 0
                                    // https://github.com/Koenkk/zigbee2mqtt/discussions/19680#discussioncomment-7868445
                                    if (key === "current") {
                                        payload.power = 0;
                                    }
                                    publish(payload);
                                }, time * 1000),
                            );
                            delete result[key];
                        }
                    }
                }
            }

            // Device takes a lot of time to report power 0 in some cases. When the state is OFF we can assume power == 0
            // https://github.com/Koenkk/zigbee2mqtt/discussions/19680#discussioncomment-7868445
            if (meta.state.state === "OFF") {
                result.power = 0;
            }

            return result;
        },
    } satisfies Fz.Converter<"haElectricalMeasurement", undefined, ["attributeReport", "readResponse"]>,
    // biome-ignore lint/style/useNamingConvention: ignored using `--suppress`
    TS011F_threshold: {
        cluster: "manuSpecificTuya3",
        type: "raw",
        convert: (model, msg, publish, options, meta) => {
            const splitToAttributes = (value: Buffer): KeyValueAny => {
                const result: KeyValue = {};
                const len = value.length;
                let i = 0;
                while (i < len) {
                    const key = value.readUInt8(i);
                    result[key] = [value.readUInt8(i + 1), value.readUInt16BE(i + 2)];
                    i += 4;
                }
                return result;
            };
            const lookup: KeyValue = {0: "OFF", 1: "ON"};
            const command = msg.data[2];
            const data = msg.data.slice(3);
            if (command === 0xe6) {
                const value = splitToAttributes(data);
                const result: KeyValue = {};
                if (0x05 in value) {
                    result.temperature_threshold = value[0x05][1];
                    result.temperature_breaker = lookup[value[0x05][0]];
                }
                if (0x07 in value) {
                    result.power_threshold = value[0x07][1];
                    result.power_breaker = lookup[value[0x07][0]];
                }
                return result;
            }
            if (command === 0xe7) {
                const value = splitToAttributes(data);
                return {
                    over_current_threshold: value[0x01][1],
                    over_current_breaker: lookup[value[0x01][0]],
                    over_voltage_threshold: value[0x03][1],
                    over_voltage_breaker: lookup[value[0x03][0]],
                    under_voltage_threshold: value[0x04][1],
                    under_voltage_breaker: lookup[value[0x04][0]],
                };
            }
        },
    } satisfies Fz.Converter<"manuSpecificTuya3", undefined, "raw">,
    // biome-ignore lint/style/useNamingConvention: ignored using `--suppress`
    PJ1203A_sync_time_increase_seq: {
        cluster: "manuSpecificTuya",
        type: ["commandMcuSyncTime"],
        convert: (model, msg, publish, options, meta) => {
            const priv = storeLocal.getPrivatePJ1203A(meta.device);
            priv.last_seq += priv.seq_inc;
        },
    } satisfies Fz.Converter<"manuSpecificTuya", undefined, ["commandMcuSyncTime"]>,
    // biome-ignore lint/style/useNamingConvention: ignored using `--suppress`
    PJ1203A_strict_fz_datapoints: {
        ...tuya.fz.datapoints,
        convert: (model, msg, publish, options, meta) => {
            // Uncomment the next line to test the behavior when random messages are lost
            // if ( Math.random() < 0.05 ) return;
            const priv = storeLocal.getPrivatePJ1203A(meta.device);
            // Detect missing or re-ordered messages but allow duplicate messages (should we?).
            const expectedSeq = (priv.last_seq + priv.seq_inc) & 0xffff;
            if (msg.data.seq !== expectedSeq && msg.data.seq !== priv.last_seq) {
                logger.debug(`[PJ1203A] Missing or re-ordered message detected: Got seq=${msg.data.seq}, expected ${priv.next_seq}`, NS);
                priv.clear();
            }
            priv.last_seq = msg.data.seq;
            // And finally, process the datapoint using tuya.fz.datapoints
            return tuya.fz.datapoints.convert(model, msg, publish, options, meta);
        },
    } satisfies Fz.Converter<
        "manuSpecificTuya",
        undefined,
        ["commandDataResponse", "commandDataReport", "commandActiveStatusReport", "commandActiveStatusReportAlt"]
    >,
    ts020cIlluminance: {
        cluster: "manuSpecificTuya2",
        type: ["attributeReport"],
        convert: (model, msg, publish, options, meta) => {
            const result: KeyValue = {};
            if ("57345" in msg.data) {
                result.illuminance = msg.data["57345"];
            }
            return result;
        },
    } satisfies Fz.Converter<"manuSpecificTuya2", undefined, ["attributeReport"]>,
    ts0049_countdown: {
        cluster: "manuSpecificTuyaE001",
        type: "raw",
        convert: (model, msg, publish, options, meta) => {
            const len = msg.data.length;
            const command = msg.data[2];
            if (len > 10 && command === 0x0a && msg.data[7] === 0x0b && (msg.data[6] === 0x05 || msg.data[6] === 0x06)) {
                const data = msg.data.slice(8);
                const value = data.readUInt32BE(0);
                return {
                    countdown: value / 60,
                };
            }
        },
    } satisfies Fz.Converter<"manuSpecificTuyaE001", undefined, "raw">,
    // biome-ignore lint/style/useNamingConvention: ignored using `--suppress`
    TS0004_backlight_mode: {
        cluster: "genOnOff",
        type: ["attributeReport", "readResponse"],
        convert: (model, msg, publish, options, meta) => {
            if (msg.data.tuyaBacklightMode !== undefined) {
                const backlightLookup: KeyValue = {0: "red_when_on", 1: "pink_when_on", 2: "red_on_blue_off", 3: "pink_on_blue_off"};
                return {backlight_mode: backlightLookup[msg.data.tuyaBacklightMode]};
            }
        },
    } satisfies Fz.Converter<"genOnOff", undefined, ["attributeReport", "readResponse"]>,
};

export const definitions: DefinitionWithExtend[] = [
    {
        zigbeeModel: ["TS0204"],
        model: "TS0204",
        vendor: "Tuya",
        description: "Gas sensor",
        whiteLabel: [{vendor: "Tesla Smart", model: "TSL-SEN-GAS"}],
        fromZigbee: [fz.ias_gas_alarm_1],
        toZigbee: [],
        exposes: [e.gas(), e.tamper()],
    },
    {
        zigbeeModel: ["TS020C"],
        model: "TS020C",
        vendor: "Tuya",
        description: "PIR sensor",
        fromZigbee: [fz.ias_occupancy_alarm_1, fz.battery, fzLocal.ts020cIlluminance],
        extend: [tuya.modernExtend.tuyaBase({dp: true, queryOnDeviceAnnounce: true, queryOnConfigure: true})],
        exposes: [
            e.occupancy(),
            e.battery(),
            e.illuminance(),
            e
                .enum("sensitivity", ea.STATE_SET, ["low", "medium", "high"])
                .withDescription("PIR sensor sensitivity (refresh and update only while active)"),
            e
                .enum("hold_time", ea.STATE_SET, ["10", "30", "60", "120"])
                .withDescription("PIR keep time in seconds (refresh and update only while active)"),
            e
                .numeric("light_interval", ea.STATE_SET)
                .withValueMin(1)
                .withValueMax(720)
                .withValueStep(1)
                .withUnit("minutes")
                .withDescription("Brightness acquisition interval (refresh and update only while active)"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "occupancy", tuya.valueConverter.trueFalse0],
                [4, "battery", tuya.valueConverter.raw],
                [12, "illuminance", tuya.valueConverter.raw], // doesn't work, hence fzLocal.TS020C_illuminance
                [
                    101,
                    "sensitivity",
                    tuya.valueConverterBasic.lookup({
                        low: tuya.enum(0),
                        medium: tuya.enum(1),
                        high: tuya.enum(2),
                    }),
                ],
                [
                    102,
                    "hold_time",
                    tuya.valueConverterBasic.lookup({
                        "10": tuya.enum(0),
                        "30": tuya.enum(1),
                        "60": tuya.enum(2),
                        "120": tuya.enum(3),
                    }),
                ],
                [103, "light_interval", tuya.valueConverter.raw],
            ],
        },
    },
    {
        zigbeeModel: ["TS0205"],
        model: "TS0205",
        vendor: "Tuya",
        description: "Smoke sensor",
        whiteLabel: [
            {vendor: "Tesla Smart", model: "TSL-SEN-SMOKE"},
            {vendor: "Dongguan Daying Electornics Technology", model: "YG400A"},
            tuya.whitelabel("Tuya", "TS0205_smoke_2", "Optical smoke sensor (model YG500A on the PCB)", ["_TZ3210_up3pngle"]),
            tuya.whitelabel("Nedis", "ZBDS10WT", "Smoke sensor", ["_TYZB01_wqcac7lo"]),
        ],
        // Configure battery % fails
        // https://github.com/Koenkk/zigbee2mqtt/issues/22421
        extend: [
            m.battery({percentageReporting: false}),
            m.iasZoneAlarm({
                zoneType: "smoke",
                zoneAttributes: ["alarm_1", "tamper"],
            }),
        ],
        configure: async (device, coordinatorEndpoint) => {
            if (device.manufacturerName === "_TZ3210_up3pngle") {
                // Required for this version
                // https://github.com/Koenkk/zigbee-herdsman-converters/pull/8004
                const endpoint = device.getEndpoint(1);
                await reporting.bind(endpoint, coordinatorEndpoint, ["genPowerCfg"]);
                await reporting.batteryPercentageRemaining(endpoint);
            }
        },
    },
    {
        zigbeeModel: ["TS0111"],
        model: "TS0111",
        vendor: "Tuya",
        description: "Socket",
        extend: [tuya.modernExtend.tuyaOnOff()],
    },
    {
        zigbeeModel: ["TS0218"],
        model: "TS0218",
        vendor: "Tuya",
        description: "Button",
        fromZigbee: [fz.command_emergency, fz.battery],
        exposes: [e.battery(), e.action(["click"])],
        toZigbee: [],
    },
    {
        fingerprint: [
            {
                manufacturerName: "Zbeacon",
                modelID: "TS0203",
                endpoints: [{ID: 1, profileID: 260, deviceID: 770, inputClusters: [0, 3, 1, 32, 1026, 1029], outputClusters: [25]}],
            },
            {
                manufacturerName: "Zbeacon",
                modelID: "TS0202",
                endpoints: [{ID: 1, profileID: 260, deviceID: 770, inputClusters: [0, 3, 1, 32, 1026, 1029], outputClusters: [25]}],
            },
        ],
        model: "ZC-W1",
        vendor: "iHseno",
        description: "Temperature & humidity sensor",
        extend: [m.temperature(), m.humidity(), m.battery()],
    },
    {
        zigbeeModel: ["TS0203", "ZG-102Z"],
        model: "TS0203",
        vendor: "Tuya",
        description: "Door/window sensor",
        fromZigbee: [fz.ias_contact_alarm_1, fz.battery, fz.ias_contact_alarm_1_report],
        toZigbee: [],
        whiteLabel: [
            {vendor: "CR Smart Home", model: "TS0203"},
            {vendor: "Tuya", model: "iH-F001"},
            {vendor: "Tesla Smart", model: "TSL-SEN-DOOR"},
            {vendor: "Cleverio", model: "SS100"},
            {vendor: "HOBEIAN", model: "ZG-102ZA", fingerprint: [{modelID: "ZG-102Z"}]},
            tuya.whitelabel("Niceboy", "ORBIS Windows & Door Sensor", "Door sensor", ["_TZ3000_qrldbmfn"]),
            tuya.whitelabel("Tuya", "ZD06", "Door window sensor", ["_TZ3000_rcuyhwe3", "_TZ3000_996rpfy6"]),
            tuya.whitelabel("Tuya", "ZD08", "Door sensor", ["_TZ3000_7d8yme6f"]),
            tuya.whitelabel("Tuya", "MC500A", "Door sensor", ["_TZ3000_2mbfxlzr"]),
            tuya.whitelabel("Tuya", "19DZT", "Door sensor", ["_TZ3000_n2egfsli"]),
            tuya.whitelabel("Tuya", "DS04", "Door sensor", ["_TZ3000_yfekcy3n"]),
            tuya.whitelabel("Moes", "ZSS-JM-GWM-C-MS", "Smart door and window sensor", ["_TZ3000_decxrtwa"]),
            tuya.whitelabel("Moes", "ZSS-S01-GWM-C-MS", "Door/window alarm sensor", ["_TZ3000_8yhypbo7"]),
            tuya.whitelabel("Moes", "ZSS-X-GWM-C", "Door/window magnetic sensor", ["_TZ3000_gntwytxo"]),
            tuya.whitelabel("Luminea", "ZX-5232", "Smart door and window sensor", ["_TZ3000_4ugnzsli"]),
            tuya.whitelabel("QA", "QASD1", "Door sensor", ["_TZ3000_udyjylt7"]),
            tuya.whitelabel("Nous", "E3", "Door sensor", ["_TZ3000_v7chgqso"]),
            tuya.whitelabel("Woox", "R7047", "Smart Door & Window Sensor", ["_TZ3000_timx9ivq"]),
            tuya.whitelabel("Wing", "WZDA1", "Door sensor", ["_TZ3000_rid8lzvo"]),
        ],
        exposes: (device, options) => {
            const exps: Expose[] = [e.contact(), e.battery(), e.battery_voltage()];
            const noTamperModels = [
                // manufacturerName for models without a tamper sensor
                "_TZ3000_rcuyhwe3",
                "_TZ3000_996rpfy6", // Tuya ZD06
                "_TZ3000_2mbfxlzr", // Tuya MC500A
                "_TZ3000_n2egfsli", // Tuya 19DZT
                "_TZ3000_yfekcy3n", // Tuya DS04
                "_TZ3000_bpkijo14",
                "_TZ3000_gntwytxo", // Moes ZSS-X-GWM-C
                "_TZ3000_4ugnzsli", // Luminea ZX-5232
                "_TZ3000_timx9ivq", //Woox R7047
                "_TZ3000_t3vvhrmh",
            ];
            if (!device || !noTamperModels.includes(device.manufacturerName)) {
                exps.push(e.tamper());
            }
            const noBatteryLowModels = ["_TZ3000_26fmupbb", "_TZ3000_oxslv1c9", "_TZ3000_osu834un", "_TZ3000_timx9ivq"];
            if (!device || !noBatteryLowModels.includes(device.manufacturerName)) {
                exps.push(e.battery_low());
            }

            return exps;
        },
        meta: {
            battery: {
                // These sensors do send a Battery Percentage Remaining (0x0021)
                // value, but is usually incorrect. For example, a coin battery tested
                // with a load tester may show 80%, but report 2.5V / 1%. This voltage
                // calculation matches what ZHA does by default.
                // https://github.com/Koenkk/zigbee2mqtt/discussions/17337
                // https://github.com/zigpy/zha-device-handlers/blob/c6ed94a52a469e72b32ece2a92d528060c7fd034/zhaquirks/__init__.py#L195-L228
                voltageToPercentage: "3V_1500_2800",
            },
        },
        configure: async (device, coordinatorEndpoint) => {
            try {
                const endpoint = device.getEndpoint(1);
                await reporting.bind(endpoint, coordinatorEndpoint, ["genPowerCfg"]);
                await reporting.batteryPercentageRemaining(endpoint);
                await reporting.batteryVoltage(endpoint);
            } catch {
                /* Fails for some*/
            }

            const endpoint = device.getEndpoint(1);
            if (endpoint.binds.some((b) => b.cluster.name === "genPollCtrl")) {
                await endpoint.unbind("genPollCtrl", coordinatorEndpoint);
            }
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE284_vuwtqx0t", "_TZE200_vuwtqx0t"]),
        model: "TS0601_water_valve",
        vendor: "Tuya",
        description: "Ultrasonic water meter valve",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            // Main valve switch
            e
                .switch()
                .setAccess("state", ea.STATE_SET),

            // Water consumption sensor
            e
                .numeric("water_consumed", ea.STATE)
                .withUnit("m³")
                .withDescription("Total water consumption")
                .withValueMin(0)
                .withValueStep(0.001),

            // Flow rate sensor
            e
                .numeric("flow_rate", ea.STATE)
                .withUnit("m³/h")
                .withDescription("Instantaneous water flow rate")
                .withValueMin(0)
                .withValueStep(0.001),

            // Temperature sensor
            e.temperature(),

            // Voltage monitoring
            e.voltage(),
            // Auto clean mode toggle
            e
                .binary("auto_clean", ea.STATE_SET, true, false)
                .withDescription("Auto clean mode"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "water_consumed", tuya.valueConverter.divideBy1000],
                [13, "state", tuya.valueConverter.onOffNotStrict],
                [14, "auto_clean", tuya.valueConverter.raw],
                [21, "flow_rate", tuya.valueConverter.divideBy1000],
                [22, "temperature", tuya.valueConverter.divideBy100],
                [26, "voltage", tuya.valueConverter.divideBy100],
            ],
        },
        // Optional: Add device-specific options
        options: [
            exposes.options.precision("water_consumed"),
            exposes.options.calibration("water_consumed"),
            exposes.options.precision("flow_rate"),
            exposes.options.calibration("flow_rate"),
            exposes.options.precision("temperature"),
            exposes.options.calibration("temperature"),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE284_ajlu4cud"]),
        model: "TS0601_water_meter",
        vendor: "Tuya",
        description: "Ultrasonic water meter",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.numeric("water_consumed", ea.STATE).withUnit("m³").withDescription("Total water consumption").withValueMin(0).withValueStep(0.001),
            e.numeric("month_consumption", ea.STATE).withUnit("m³").withDescription("Monthly water consumption").withValueMin(0).withValueStep(0.001),
            e.numeric("daily_consumption", ea.STATE).withUnit("m³").withDescription("Daily water consumption").withValueMin(0).withValueStep(0.001),
            e.numeric("flow_rate", ea.STATE).withUnit("m³/h").withDescription("Instantaneous flow rate").withValueMin(0).withValueStep(0.001),
            e
                .numeric("reverse_water_consumed", ea.STATE)
                .withUnit("m³")
                .withDescription("Reverse water consumption")
                .withValueMin(0)
                .withValueStep(0.001),
            e.enum("report_period", ea.STATE_SET, ["1h", "2h", "3h", "4h", "6h", "8h", "12h", "24h"]).withDescription("Report period"),
            e.text("meter_id", ea.STATE).withDescription("Meter identification number"),
            e.temperature(),
            e.voltage(),
            e
                .enum("fault", ea.STATE, [
                    "no_fault",
                    "battery_alarm",
                    "magnetism_alarm",
                    "cover_alarm",
                    "credit_alarm",
                    "switch_gaps_alarm",
                    "meter_body_alarm",
                    "abnormal_water_alarm",
                    "arrearage_alarm",
                    "overflow_alarm",
                    "revflow_alarm",
                    "over_pre_alarm",
                    "empty_pipe_alarm",
                    "transducer_alarm",
                ])
                .withDescription("Fault status"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "water_consumed", tuya.valueConverter.divideBy1000],
                [
                    2,
                    "month_consumption",
                    {
                        from: (value, meta) => {
                            const buffer = Buffer.from(value);
                            if (buffer.length >= 8) {
                                try {
                                    const uintValue = buffer.slice(-4).readUInt32BE(0);
                                    return uintValue / 1000;
                                } catch (_error) {
                                    return null;
                                }
                            }
                            return null;
                        },
                    },
                ],
                [
                    3,
                    "daily_consumption",
                    {
                        from: (value, meta) => {
                            const buffer = Buffer.from(value);
                            if (buffer.length >= 8) {
                                try {
                                    const uintValue = buffer.slice(-4).readUInt32BE(0);
                                    return uintValue / 1000;
                                } catch (_error) {
                                    return null;
                                }
                            }
                            return null;
                        },
                    },
                ],
                [
                    21,
                    "flow_rate",
                    {
                        from: (value, meta) => {
                            const buffer = Buffer.from(value);
                            if (buffer.length >= 4) {
                                try {
                                    const uintValue = buffer.slice(-4).readUInt32BE(0);
                                    return uintValue / 1000;
                                } catch (_error) {
                                    return null;
                                }
                            }
                            return null;
                        },
                    },
                ],
                [
                    4,
                    "report_period",
                    tuya.valueConverterBasic.lookup({
                        "1h": 0,
                        "2h": 1,
                        "3h": 2,
                        "4h": 3,
                        "6h": 4,
                        "8h": 5,
                        "12h": 6,
                        "24h": 7,
                    }),
                ],
                [
                    5,
                    "fault",
                    tuya.valueConverterBasic.lookup({
                        0: "no_fault",
                        1: "battery_alarm",
                        2: "magnetism_alarm",
                        4: "cover_alarm",
                        8: "credit_alarm",
                        16: "switch_gaps_alarm",
                        32: "meter_body_alarm",
                        64: "abnormal_water_alarm",
                        128: "arrearage_alarm",
                        256: "overflow_alarm",
                        512: "revflow_alarm",
                        1024: "over_pre_alarm",
                        2048: "empty_pipe_alarm",
                        4096: "transducer_alarm",
                    }),
                ],
                [16, "meter_id", tuya.valueConverter.raw],
                [
                    18,
                    "reverse_water_consumed",
                    {
                        from: (value, meta) => {
                            const buffer = Buffer.from(value);
                            if (buffer.length >= 4) {
                                try {
                                    const uintValue = buffer.readUInt32BE(0);
                                    return uintValue / 1000;
                                } catch (_error) {
                                    return null;
                                }
                            }
                            return null;
                        },
                    },
                ],
                [22, "temperature", tuya.valueConverter.divideBy100],
                [26, "voltage", tuya.valueConverter.divideBy100],
            ],
        },
        options: [
            exposes.options.precision("water_consumed"),
            exposes.options.calibration("water_consumed"),
            exposes.options.precision("month_consumption"),
            exposes.options.calibration("month_consumption"),
            exposes.options.precision("daily_consumption"),
            exposes.options.calibration("daily_consumption"),
            exposes.options.precision("flow_rate"),
            exposes.options.calibration("flow_rate"),
            exposes.options.precision("reverse_water_consumed"),
            exposes.options.calibration("reverse_water_consumed"),
            exposes.options.precision("temperature"),
            exposes.options.calibration("temperature"),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE284_zpvusbtv"]),
        model: "ZN2S-RS02E",
        vendor: "Tuya",
        description: "Two gang switch with colored backlight modes",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            tuya.exposes.switch().withDescription("All switches"),
            tuya.exposes.switch().withEndpoint("l1"),
            tuya.exposes.switch().withEndpoint("l2"),
            e.binary("backlight_switch", ea.STATE_SET, "ON", "OFF").withDescription("Backlight master switch"),
            e.numeric("backlight", ea.STATE_SET).withValueMin(0).withValueMax(100).withUnit("%").withDescription("Backlight brightness percentage"),
            e.enum("indicator_mode", ea.STATE_SET, ["off", "on_off_status", "switch_position"]).withDescription("LED indicator mode"),
            e.power_on_behavior().withAccess(ea.STATE_SET),
            e.binary("child_lock", ea.STATE_SET, "ON", "OFF").withDescription("Child lock"),
            e
                .enum("on_color", ea.STATE_SET, ["red", "blue", "green", "white", "yellow", "magenta", "cyan", "warm_white", "warm_yellow"])
                .withDescription("ON color"),
            e
                .enum("off_color", ea.STATE_SET, ["red", "blue", "green", "white", "yellow", "magenta", "cyan", "warm_white", "warm_yellow"])
                .withDescription("OFF color"),
            e.numeric("countdown_l1", ea.STATE_SET).withUnit("s").withDescription("Countdown for l1").withValueMin(0).withValueMax(86400),
            e.numeric("countdown_l2", ea.STATE_SET).withUnit("s").withDescription("Countdown for l2").withValueMin(0).withValueMax(86400),
        ],
        meta: {
            multiEndpoint: true,
            tuyaDatapoints: [
                [13, "state", tuya.valueConverter.onOff],
                [1, "state_l1", tuya.valueConverter.onOff],
                [2, "state_l2", tuya.valueConverter.onOff],
                [7, "countdown_l1", tuya.valueConverter.countdown],
                [8, "countdown_l2", tuya.valueConverter.countdown],
                [14, "power_on_behavior", tuya.valueConverter.powerOnBehaviorEnum],
                [
                    15,
                    "indicator_mode",
                    tuya.valueConverterBasic.lookup({
                        off: tuya.enum(0),
                        on_off_status: tuya.enum(1),
                        switch_position: tuya.enum(2),
                    }),
                ],

                [16, "backlight_switch", tuya.valueConverter.onOff],
                [101, "child_lock", tuya.valueConverter.onOff],
                [102, "backlight", tuya.valueConverter.raw],
                [
                    103,
                    "on_color",
                    tuya.valueConverterBasic.lookup({
                        red: tuya.enum(0),
                        blue: tuya.enum(1),
                        green: tuya.enum(2),
                        white: tuya.enum(3),
                        yellow: tuya.enum(4),
                        magenta: tuya.enum(5),
                        cyan: tuya.enum(6),
                        warm_white: tuya.enum(7),
                        warm_yellow: tuya.enum(8),
                    }),
                ],
                [
                    104,
                    "off_color",
                    tuya.valueConverterBasic.lookup({
                        red: tuya.enum(0),
                        blue: tuya.enum(1),
                        green: tuya.enum(2),
                        white: tuya.enum(3),
                        yellow: tuya.enum(4),
                        magenta: tuya.enum(5),
                        cyan: tuya.enum(6),
                        warm_white: tuya.enum(7),
                        warm_yellow: tuya.enum(8),
                    }),
                ],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_rkbxtclc"]),
        model: "TS0601_3gang_rkbxtclc",
        vendor: "Tuya",
        description: "Three gang smart switch with colored backlight modes",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            tuya.exposes.switch().withDescription("All switches"),
            tuya.exposes.switch().withEndpoint("l1"),
            tuya.exposes.switch().withEndpoint("l2"),
            tuya.exposes.switch().withEndpoint("l3"),
            e.binary("backlight_switch", ea.STATE_SET, "ON", "OFF").withDescription("Backlight master switch"),
            e.numeric("backlight", ea.STATE_SET).withValueMin(0).withValueMax(100).withUnit("%").withDescription("Backlight brightness percentage"),
            e.enum("indicator_mode", ea.STATE_SET, ["off", "on_off_status", "switch_position"]).withDescription("LED indicator mode"),
            e.power_on_behavior().withAccess(ea.STATE_SET),
            e.binary("child_lock", ea.STATE_SET, "ON", "OFF").withDescription("Child lock"),
            e
                .enum("on_color", ea.STATE_SET, ["red", "blue", "green", "white", "yellow", "magenta", "cyan", "warm_white", "warm_yellow"])
                .withDescription("ON color"),

            e
                .enum("off_color", ea.STATE_SET, ["red", "blue", "green", "white", "yellow", "magenta", "cyan", "warm_white", "warm_yellow"])
                .withDescription("OFF color"),
            e.numeric("countdown_l1", ea.STATE_SET).withUnit("s").withDescription("Countdown for l1").withValueMin(0).withValueMax(86400),
            e.numeric("countdown_l2", ea.STATE_SET).withUnit("s").withDescription("Countdown for l2").withValueMin(0).withValueMax(86400),
            e.numeric("countdown_l3", ea.STATE_SET).withUnit("s").withDescription("Countdown for l3").withValueMin(0).withValueMax(86400),
        ],
        meta: {
            multiEndpoint: true,
            tuyaDatapoints: [
                [13, "state", tuya.valueConverter.onOff],
                [1, "state_l1", tuya.valueConverter.onOff],
                [2, "state_l2", tuya.valueConverter.onOff],
                [3, "state_l3", tuya.valueConverter.onOff],
                [7, "countdown_l1", tuya.valueConverter.countdown],
                [8, "countdown_l2", tuya.valueConverter.countdown],
                [9, "countdown_l3", tuya.valueConverter.countdown],
                [14, "power_on_behavior", tuya.valueConverter.powerOnBehaviorEnum],
                [
                    15,
                    "indicator_mode",
                    tuya.valueConverterBasic.lookup({
                        off: tuya.enum(0),
                        on_off_status: tuya.enum(1),
                        switch_position: tuya.enum(2),
                    }),
                ],
                [16, "backlight_switch", tuya.valueConverter.onOff],
                [101, "child_lock", tuya.valueConverter.onOff],
                [102, "backlight", tuya.valueConverter.raw],
                [
                    103,
                    "on_color",
                    tuya.valueConverterBasic.lookup({
                        red: tuya.enum(0),
                        blue: tuya.enum(1),
                        green: tuya.enum(2),
                        white: tuya.enum(3),
                        yellow: tuya.enum(4),
                        magenta: tuya.enum(5),
                        cyan: tuya.enum(6),
                        warm_white: tuya.enum(7),
                        warm_yellow: tuya.enum(8),
                    }),
                ],
                [
                    104,
                    "off_color",
                    tuya.valueConverterBasic.lookup({
                        red: tuya.enum(0),
                        blue: tuya.enum(1),
                        green: tuya.enum(2),
                        white: tuya.enum(3),
                        yellow: tuya.enum(4),
                        magenta: tuya.enum(5),
                        cyan: tuya.enum(6),
                        warm_white: tuya.enum(7),
                        warm_yellow: tuya.enum(8),
                    }),
                ],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_7ytnacie"]),
        model: "TS0601_4gang_7ytnacie",
        vendor: "Tuya",
        description: "Four gang smart switch with colored backlight modes",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            tuya.exposes.switch().withDescription("All switches"),
            tuya.exposes.switch().withEndpoint("l1"),
            tuya.exposes.switch().withEndpoint("l2"),
            tuya.exposes.switch().withEndpoint("l3"),
            tuya.exposes.switch().withEndpoint("l4"),
            e.binary("backlight_switch", ea.STATE_SET, "ON", "OFF").withDescription("Backlight master switch"),
            e.numeric("backlight", ea.STATE_SET).withValueMin(0).withValueMax(100).withUnit("%").withDescription("Backlight brightness percentage"),
            e.enum("indicator_mode", ea.STATE_SET, ["off", "on_off_status", "switch_position"]).withDescription("LED indicator mode"),
            e.power_on_behavior().withAccess(ea.STATE_SET),
            e.binary("child_lock", ea.STATE_SET, "ON", "OFF").withDescription("Child lock"),
            e
                .enum("on_color", ea.STATE_SET, ["red", "blue", "green", "white", "yellow", "magenta", "cyan", "warm_white", "warm_yellow"])
                .withDescription("ON color"),
            e
                .enum("off_color", ea.STATE_SET, ["red", "blue", "green", "white", "yellow", "magenta", "cyan", "warm_white", "warm_yellow"])
                .withDescription("OFF color"),
            e.numeric("countdown_l1", ea.STATE_SET).withUnit("s").withDescription("Countdown for l1").withValueMin(0).withValueMax(86400),
            e.numeric("countdown_l2", ea.STATE_SET).withUnit("s").withDescription("Countdown for l2").withValueMin(0).withValueMax(86400),
            e.numeric("countdown_l3", ea.STATE_SET).withUnit("s").withDescription("Countdown for l3").withValueMin(0).withValueMax(86400),
            e.numeric("countdown_l4", ea.STATE_SET).withUnit("s").withDescription("Countdown for l4").withValueMin(0).withValueMax(86400),
        ],
        meta: {
            multiEndpoint: true,
            tuyaDatapoints: [
                [13, "state", tuya.valueConverter.onOff],
                [1, "state_l1", tuya.valueConverter.onOff],
                [2, "state_l2", tuya.valueConverter.onOff],
                [3, "state_l3", tuya.valueConverter.onOff],
                [4, "state_l4", tuya.valueConverter.onOff],
                [7, "countdown_l1", tuya.valueConverter.countdown],
                [8, "countdown_l2", tuya.valueConverter.countdown],
                [9, "countdown_l3", tuya.valueConverter.countdown],
                [10, "countdown_l4", tuya.valueConverter.countdown],
                [14, "power_on_behavior", tuya.valueConverter.powerOnBehaviorEnum],
                [
                    15,
                    "indicator_mode",
                    tuya.valueConverterBasic.lookup({
                        off: tuya.enum(0),
                        on_off_status: tuya.enum(1),
                        switch_position: tuya.enum(2),
                    }),
                ],
                [16, "backlight_switch", tuya.valueConverter.onOff],
                [101, "child_lock", tuya.valueConverter.onOff],
                [102, "backlight", tuya.valueConverter.raw],
                [
                    103,
                    "on_color",
                    tuya.valueConverterBasic.lookup({
                        red: tuya.enum(0),
                        blue: tuya.enum(1),
                        green: tuya.enum(2),
                        white: tuya.enum(3),
                        yellow: tuya.enum(4),
                        magenta: tuya.enum(5),
                        cyan: tuya.enum(6),
                        warm_white: tuya.enum(7),
                        warm_yellow: tuya.enum(8),
                    }),
                ],
                [
                    104,
                    "off_color",
                    tuya.valueConverterBasic.lookup({
                        red: tuya.enum(0),
                        blue: tuya.enum(1),
                        green: tuya.enum(2),
                        white: tuya.enum(3),
                        yellow: tuya.enum(4),
                        magenta: tuya.enum(5),
                        cyan: tuya.enum(6),
                        warm_white: tuya.enum(7),
                        warm_yellow: tuya.enum(8),
                    }),
                ],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0203", ["_TZ3210_jowhpxop"]),
        model: "TS0203_1",
        vendor: "Tuya",
        description: "Door sensor with scene switch",
        fromZigbee: [fz.ias_contact_alarm_1, fz.battery, fz.ias_contact_alarm_1_report],
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [e.action(["single", "double", "hold"]), e.contact(), e.battery_low(), e.tamper(), e.battery(), e.battery_voltage()],
        meta: {
            tuyaDatapoints: [[101, "action", tuya.valueConverterBasic.lookup({single: 0, double: 1, hold: 2})]],
        },
        whiteLabel: [tuya.whitelabel("Linkoze", "LKDSZ001", "Door sensor with scene switch", ["_TZ3210_jowhpxop"])],
    },
    {
        fingerprint: tuya.fingerprint("TS0203", ["_TZ3000_pjb1ua0m"]),
        model: "C3007",
        vendor: "Tuya",
        description: "Pressure pad sensor",
        extend: [
            m.iasZoneAlarm({
                zoneType: "pressure",
                zoneAttributes: ["alarm_1", "battery_low"],
            }),
            m.battery({voltage: true}),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS0021", ["_TZ3210_3ulg9kpo"]),
        model: "LKWSZ211",
        vendor: "Linkoze",
        description: "Scene remote with 2 keys",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.battery(),
            e.action(["button_1_single", "button_1_double", "button_1_hold", "button_2_single", "button_2_double", "button_2_hold"]),
        ],
        meta: {
            tuyaDatapoints: [
                [
                    1,
                    "action",
                    tuya.valueConverterBasic.lookup({
                        button_1_single: tuya.enum(0),
                        button_1_double: tuya.enum(1),
                        button_1_hold: tuya.enum(2),
                    }),
                ],
                [
                    2,
                    "action",
                    tuya.valueConverterBasic.lookup({
                        button_2_single: tuya.enum(0),
                        button_2_double: tuya.enum(1),
                        button_2_hold: tuya.enum(2),
                    }),
                ],
                [10, "battery", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", [
            "_TZE200_bq5c8xfe",
            "_TZE200_bjawzodf",
            "_TZE200_qyflbnbj",
            "_TZE200_44af8vyi",
            "_TZE200_zl1kmjqx",
            "_TZE204_qyflbnbj",
            "_TZE284_qyflbnbj",
        ]),
        model: "TS0601_temperature_humidity_sensor_1",
        vendor: "Tuya",
        description: "Temperature & humidity sensor",
        fromZigbee: [legacy.fromZigbee.tuya_temperature_humidity_sensor],
        toZigbee: [],
        exposes: (device, options) => {
            const exps: Expose[] = [e.temperature(), e.humidity(), e.battery()];
            if (
                !device ||
                device.manufacturerName === "_TZE200_qyflbnbj" ||
                device.manufacturerName === "_TZE204_qyflbnbj" ||
                device.manufacturerName === "_TZE284_qyflbnbj"
            ) {
                exps.push(e.battery_low());
                exps.push(e.enum("battery_level", ea.STATE, ["low", "middle", "high"]).withDescription("Battery level state"));
            }

            return exps;
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_mfamvsdb"]),
        model: "F00MB00-04-1",
        vendor: "FORIA",
        description: "4 scenes switch",
        extend: [
            tuya.modernExtend.tuyaMagicPacket(),
            tuya.modernExtend.combineActions([
                tuya.modernExtend.dpAction({dp: 1, lookup: {scene_1: 0}}),
                tuya.modernExtend.dpAction({dp: 2, lookup: {scene_2: 0}}),
                tuya.modernExtend.dpAction({dp: 3, lookup: {scene_3: 0}}),
                tuya.modernExtend.dpAction({dp: 4, lookup: {scene_4: 0}}),
            ]),
            tuya.modernExtend.dpBinary({
                name: "vibration",
                dp: 0x6c,
                type: tuya.dataTypes.enum,
                valueOn: ["ON", 1],
                valueOff: ["OFF", 0],
                description: "Enable vibration",
            }),
            tuya.modernExtend.dpBinary({
                name: "approach",
                dp: 0x6b,
                type: tuya.dataTypes.enum,
                valueOn: ["ON", 1],
                valueOff: ["OFF", 0],
                description: "Enable approach detection",
            }),
            tuya.modernExtend.dpBinary({
                name: "illumination",
                dp: 0x6a,
                type: tuya.dataTypes.enum,
                valueOn: ["ON", 1],
                valueOff: ["OFF", 0],
                description: "Enable illumination detection",
            }),
            tuya.modernExtend.dpBinary({
                name: "backlight",
                dp: 0x69,
                type: tuya.dataTypes.enum,
                valueOn: ["ON", 1],
                valueOff: ["OFF", 0],
                description: "Enable backlight",
            }),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_dhke3p9w", "_TZE284_dhke3p9w"]),
        model: "F00YK04-18-1",
        vendor: "FORIA",
        description: "18 scenes remote",
        extend: [
            tuya.modernExtend.tuyaMagicPacket(),
            tuya.modernExtend.combineActions([
                tuya.modernExtend.dpAction({dp: 1, lookup: {scene_1: 0}}),
                tuya.modernExtend.dpAction({dp: 2, lookup: {scene_2: 0}}),
                tuya.modernExtend.dpAction({dp: 3, lookup: {scene_3: 0}}),
                tuya.modernExtend.dpAction({dp: 4, lookup: {scene_4: 0}}),
                tuya.modernExtend.dpAction({dp: 5, lookup: {scene_5: 0}}),
                tuya.modernExtend.dpAction({dp: 6, lookup: {scene_6: 0}}),
                tuya.modernExtend.dpAction({dp: 7, lookup: {scene_7: 0}}),
                tuya.modernExtend.dpAction({dp: 8, lookup: {scene_8: 0}}),
                tuya.modernExtend.dpAction({dp: 9, lookup: {scene_9: 0}}),
                tuya.modernExtend.dpAction({dp: 10, lookup: {scene_10: 0}}),
                tuya.modernExtend.dpAction({dp: 11, lookup: {scene_11: 0}}),
                tuya.modernExtend.dpAction({dp: 12, lookup: {scene_12: 0}}),
                tuya.modernExtend.dpAction({dp: 13, lookup: {scene_13: 0}}),
                tuya.modernExtend.dpAction({dp: 14, lookup: {scene_14: 0}}),
                tuya.modernExtend.dpAction({dp: 15, lookup: {scene_15: 0}}),
                tuya.modernExtend.dpAction({dp: 16, lookup: {scene_16: 0}}),
                tuya.modernExtend.dpAction({dp: 101, lookup: {scene_17: 0}}),
                tuya.modernExtend.dpAction({dp: 102, lookup: {scene_18: 0}}),
            ]),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", [
            "_TZE200_yjjdcqsq",
            "_TZE200_9yapgbuv",
            "_TZE200_utkemkbs",
            "_TZE204_utkemkbs",
            "_TZE284_utkemkbs",
            "_TZE204_9yapgbuv",
            "_TZE204_upagmta9",
            "_TZE200_cirvgep4",
            "_TZE204_d7lpruvi",
            "_TZE200_upagmta9",
            "_TZE204_yjjdcqsq",
            "_TZE204_jygvp6fk",
            "_TZE204_cirvgep4",
            "_TZE284_yjjdcqsq",
            "_TZE200_d7lpruvi",
            "_TZE284_hdyjyqjm",
            "_TZE284_d7lpruvi",
            "_TZE284_upagmta9",
            "_TZE204_ksz749x8",
            "_TZE204_1wnh8bqp",
            "_TZE284_1wnh8bqp",
        ]),
        model: "TS0601_temperature_humidity_sensor_2",
        vendor: "Tuya",
        description: "Temperature and humidity sensor",
        extend: [
            tuya.modernExtend.tuyaBase({
                dp: true,
                queryOnDeviceAnnounce: true,
                queryOnConfigure: true,
                respondToMcuVersionResponse: true,
                timeStart: "1970",
            }),
        ],
        exposes: [e.temperature(), e.humidity(), tuya.exposes.batteryState(), tuya.exposes.temperatureUnit()],
        meta: {
            tuyaDatapoints: [
                [1, "temperature", tuya.valueConverter.divideBy10],
                [2, "humidity", tuya.valueConverter.raw],
                [3, "battery_state", tuya.valueConverter.batteryState],
                [9, "temperature_unit", tuya.valueConverter.temperatureUnitEnum],
            ],
        },
        whiteLabel: [
            tuya.whitelabel("Tuya", "ZTH01", "Temperature and humidity sensor", ["_TZE200_yjjdcqsq", "_TZE204_yjjdcqsq", "_TZE284_yjjdcqsq"]),
            tuya.whitelabel("Tuya", "SZTH02", "Temperature and humidity sensor", ["_TZE200_utkemkbs", "_TZE204_utkemkbs", "_TZE284_utkemkbs"]),
            tuya.whitelabel("Tuya", "ZTH02", "Temperature and humidity sensor", ["_TZE200_9yapgbuv", "_TZE204_9yapgbuv"]),
            tuya.whitelabel("Tuya", "ZTH05", "Temperature and humidity sensor", ["_TZE204_upagmta9", "_TZE200_upagmta9", "_TZE284_upagmta9"]),
            tuya.whitelabel("Tuya", "ZTH08-E", "Temperature and humidity sensor", ["_TZE200_cirvgep4", "_TZE204_cirvgep4"]),
            tuya.whitelabel("Tuya", "ZTH08", "Temperature and humidity sensor", ["_TZE204_d7lpruvi", "_TZE284_d7lpruvi", "_TZE284_hdyjyqjm"]),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_s1xgth2u", "_TZE200_t3xd7l44"]),
        model: "TS0601_temperature_humidity_sensor_3",
        vendor: "Tuya",
        description: "Temperature & humidity sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true, forceTimeUpdates: true, queryOnConfigure: true, timeStart: "1970"})],
        exposes: [e.temperature(), e.humidity(), e.battery(), tuya.exposes.temperatureUnit()],
        meta: {
            tuyaDatapoints: [
                [1, "temperature", tuya.valueConverter.divideBy10],
                [2, "humidity", tuya.valueConverter.raw],
                [4, "battery", tuya.valueConverter.raw], // maybe?
                [9, "temperature_unit", tuya.valueConverter.temperatureUnitEnum],
                [19, "temperature_sensitivity", tuya.valueConverter.raw], // maybe? commented this out for now
            ],
        },
        whiteLabel: [tuya.whitelabel("Tuya", "TZE200_t3xd7l44", "Temperature and humidity sensor with clock", ["_TZE200_t3xd7l44"])],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE284_9ern5sfh"]),
        model: "TS0601_temperature_humidity_sensor_4",
        vendor: "Tuya",
        description: "Temperature & humidity sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true, forceTimeUpdates: true, queryOnConfigure: true})],
        exposes: [e.temperature(), e.humidity(), e.battery(), tuya.exposes.temperatureUnit()],
        meta: {
            tuyaDatapoints: [
                [1, "temperature", tuya.valueConverter.divideBy10],
                [2, "humidity", tuya.valueConverter.divideBy10],
                [4, "battery", tuya.valueConverter.raw],
                [9, "temperature_unit", tuya.valueConverter.temperatureUnitEnum],
                [19, "temperature_sensitivity", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_vvmbj46n", "_TZE284_vvmbj46n", "_TZE200_w6n8jeuu", "_TZE284_cwyqwqbf"]),
        model: "ZTH05Z",
        vendor: "Tuya",
        description: "Temperature and humidity sensor",
        extend: [
            tuya.modernExtend.tuyaBase({
                dp: true,
                queryOnDeviceAnnounce: true,
                queryOnConfigure: true,
                respondToMcuVersionResponse: true,
                timeStart: "1970",
            }),
        ],
        exposes: [
            e.temperature(),
            e.humidity(),
            e.battery(),
            e.enum("temperature_unit", ea.STATE_SET, ["celsius", "fahrenheit"]).withDescription("Temperature unit"),
            e
                .numeric("max_temperature_alarm", ea.STATE_SET)
                .withUnit("°C")
                .withValueMin(-20)
                .withValueMax(60)
                .withDescription("Alarm temperature max"),
            e
                .numeric("min_temperature_alarm", ea.STATE_SET)
                .withUnit("°C")
                .withValueMin(-20)
                .withValueMax(60)
                .withDescription("Alarm temperature min"),
            e.numeric("max_humidity_alarm", ea.STATE_SET).withUnit("%").withValueMin(0).withValueMax(100).withDescription("Alarm humidity max"),
            e.numeric("min_humidity_alarm", ea.STATE_SET).withUnit("%").withValueMin(0).withValueMax(100).withDescription("Alarm humidity min"),
            e.enum("temperature_alarm", ea.STATE, ["lower_alarm", "upper_alarm", "cancel"]).withDescription("Temperature alarm"),
            e.enum("humidity_alarm", ea.STATE, ["lower_alarm", "upper_alarm", "cancel"]).withDescription("Humidity alarm"),
            e
                .numeric("temperature_periodic_report", ea.STATE_SET)
                .withUnit("min")
                .withValueMin(1)
                .withValueMax(120)
                .withDescription("Temp periodic report"),
            e
                .numeric("humidity_periodic_report", ea.STATE_SET)
                .withUnit("min")
                .withValueMin(1)
                .withValueMax(120)
                .withDescription("Humidity periodic report"),
            e
                .numeric("temperature_sensitivity", ea.STATE_SET)
                .withUnit("°C")
                .withValueMin(0.3)
                .withValueMax(1)
                .withValueStep(0.1)
                .withDescription("Sensitivity of temperature"),
            e
                .numeric("humidity_sensitivity", ea.STATE_SET)
                .withUnit("%")
                .withValueMin(3)
                .withValueMax(10)
                .withValueStep(1)
                .withDescription("Sensitivity of humidity"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "temperature", tuya.valueConverter.divideBy10],
                [2, "humidity", tuya.valueConverter.raw],
                [4, "battery", tuya.valueConverter.raw],
                [9, "temperature_unit", tuya.valueConverter.temperatureUnitEnum],
                [10, "max_temperature_alarm", tuya.valueConverter.divideBy10],
                [11, "min_temperature_alarm", tuya.valueConverter.divideBy10],
                [12, "max_humidity_alarm", tuya.valueConverter.raw],
                [13, "min_humidity_alarm", tuya.valueConverter.raw],
                [
                    14,
                    "temperature_alarm",
                    tuya.valueConverterBasic.lookup({
                        lower_alarm: tuya.enum(0),
                        upper_alarm: tuya.enum(1),
                        cancel: tuya.enum(2),
                    }),
                ],
                [
                    15,
                    "humidity_alarm",
                    tuya.valueConverterBasic.lookup({
                        lower_alarm: tuya.enum(0),
                        upper_alarm: tuya.enum(1),
                        cancel: tuya.enum(2),
                    }),
                ],
                [17, "temperature_periodic_report", tuya.valueConverter.raw],
                [18, "humidity_periodic_report", tuya.valueConverter.raw],
                [19, "temperature_sensitivity", tuya.valueConverter.divideBy10],
                [20, "humidity_sensitivity", tuya.valueConverter.raw],
            ],
        },
        whiteLabel: [
            tuya.whitelabel("ONENUO", "TH05Z", "Temperature & humidity sensor with clock and humidity display", ["_TZE200_vvmbj46n"]),
            tuya.whitelabel("Tuya", "TZE284_cwyqwqbf", "Temperature & humidity sensor with LCD clock", ["_TZE284_cwyqwqbf"]),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_nvups4nh"]),
        model: "TS0601_contact_temperature_humidity_sensor",
        vendor: "Tuya",
        description: "Contact, temperature and humidity sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [e.contact(), e.temperature(), e.humidity(), e.battery()],
        meta: {
            tuyaDatapoints: [
                [1, "contact", tuya.valueConverter.trueFalseInvert],
                [2, "battery", tuya.valueConverter.raw],
                [7, "temperature", tuya.valueConverter.divideBy10],
                [8, "humidity", tuya.valueConverter.raw],
            ],
        },
        whiteLabel: [tuya.whitelabel("Aubess", "1005005194831629", "Contact, temperature and humidity sensor", ["_TZE200_nvups4nh"])],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_vzqtvljm"]),
        model: "TS0601_illuminance_temperature_humidity_sensor_1",
        vendor: "Tuya",
        description: "Illuminance, temperature & humidity sensor",
        fromZigbee: [legacy.fromZigbee.tuya_illuminance_temperature_humidity_sensor],
        toZigbee: [],
        exposes: [e.temperature(), e.humidity(), e.illuminance(), e.battery()],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", [
            "_TZE200_8ygsuhe1",
            "_TZE200_yvx5lh6k",
            "_TZE200_ryfmq5rl",
            "_TZE200_c2fmom5z",
            "_TZE200_mja3fuja",
            "_TZE204_c2fmom5z",
            "_TZE204_yvx5lh6k",
        ]),
        model: "TS0601_air_quality_sensor",
        vendor: "Tuya",
        description: "Air quality sensor",
        fromZigbee: [legacy.fromZigbee.tuya_air_quality],
        toZigbee: [],
        exposes: [e.temperature(), e.humidity(), e.co2(), e.voc().withUnit("ppb"), e.formaldehyd().withUnit("µg/m³")],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_rbbx5mfq", "_TZE204_rbbx5mfq"]),
        model: "TS0601_illuminance_temperature_humidity_sensor_2",
        vendor: "Tuya",
        description: "Illuminance sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [e.illuminance(), e.temperature(), e.humidity()],
        meta: {
            tuyaDatapoints: [
                [2, "illuminance", tuya.valueConverter.raw],
                [6, "temperature", tuya.valueConverter.divideBy10],
                [7, "humidity", tuya.valueConverter.divideBy10],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_dwcarsat", "_TZE204_dwcarsat", "_TZE200_blfcpsxz"]),
        model: "TS0601_smart_air_house_keeper",
        vendor: "Tuya",
        description: "Smart air house keeper",
        fromZigbee: [legacy.fromZigbee.tuya_air_quality],
        toZigbee: [],
        exposes: [
            e.temperature(),
            e.humidity(),
            e.co2(),
            e.voc().withUnit("ppb"),
            e.formaldehyd().withUnit("µg/m³"),
            e.pm25().withValueMin(0).withValueMax(999).withValueStep(1),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_ogkdpgy2", "_TZE200_3ejwxpmu", "_TZE204_3ejwxpmu"]),
        model: "TS0601_temperature_humidity_co2_sensor",
        vendor: "Tuya",
        description: "NDIR co2 sensor",
        fromZigbee: [legacy.fromZigbee.tuya_air_quality],
        toZigbee: [],
        exposes: [e.temperature(), e.humidity(), e.co2()],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_ogkdpgy2"]),
        model: "TS0601_co2_sensor",
        vendor: "Tuya",
        description: "NDIR co2 sensor",
        fromZigbee: [legacy.fromZigbee.tuya_air_quality],
        toZigbee: [],
        exposes: [e.co2()],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_7bztmfm1", "_TZE204_7bztmfm1"]),
        model: "DCR-CO",
        vendor: "Tuya",
        description: "Smart air box (carbon monoxide)",
        fromZigbee: [legacy.fromZigbee.tuya_CO],
        toZigbee: [],
        exposes: [e.binary("carbon_monoxide", ea.STATE, "ON", "OFF").withDescription("Indicates if CO (carbon monoxide) is detected"), e.co()],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_ggev5fsl", "_TZE200_u319yc66", "_TZE200_kvpwq8z7", "_TZE204_kvpwq8z7"]),
        model: "TS0601_gas_sensor_1",
        vendor: "Tuya",
        description: "Gas sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [e.gas(), tuya.exposes.selfTest(), tuya.exposes.selfTestResult(), tuya.exposes.faultAlarm(), tuya.exposes.silence()],
        meta: {
            tuyaDatapoints: [
                [1, "gas", tuya.valueConverter.trueFalse0],
                [8, "self_test", tuya.valueConverter.raw],
                [9, "self_test_result", tuya.valueConverter.selfTestResult],
                [11, "fault_alarm", tuya.valueConverter.trueFalse1],
                [16, "silence", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_yojqa8xn", "_TZE204_zougpkpy", "_TZE204_chbyv06x", "_TZE204_yojqa8xn", "_TZE284_chbyv06x"]),
        model: "TS0601_gas_sensor_2",
        vendor: "Tuya",
        description: "Gas sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.gas(),
            tuya.exposes.gasValue().withUnit("LEL"),
            tuya.exposes.selfTest(),
            tuya.exposes.selfTestResult(),
            tuya.exposes.silence(),
            e
                .enum("alarm_ringtone", ea.STATE_SET, ["melody_1", "melody_2", "melody_3", "melody_4", "melody_5"])
                .withDescription("Ringtone of the alarm"),
            e.numeric("alarm_time", ea.STATE_SET).withValueMin(1).withValueMax(180).withValueStep(1).withUnit("s").withDescription("Alarm time"),
            e.binary("preheat", ea.STATE, true, false).withDescription("Indicates sensor preheat is active"),
        ],
        whiteLabel: [tuya.whitelabel("DYGSM", "DY-RQ500A", "Gas sensor", ["_TZE204_zougpkpy", "_TZE204_chbyv06x", "_TZE284_chbyv06x"])],
        meta: {
            tuyaDatapoints: [
                [1, "gas", tuya.valueConverter.trueFalseEnum0],
                [2, "gas_value", tuya.valueConverter.divideBy10],
                [
                    6,
                    "alarm_ringtone",
                    tuya.valueConverterBasic.lookup({
                        melody_1: tuya.enum(0),
                        melody_2: tuya.enum(1),
                        melody_3: tuya.enum(2),
                        melody_4: tuya.enum(3),
                        melody_5: tuya.enum(4),
                    }),
                ],
                [7, "alarm_time", tuya.valueConverter.raw],
                [8, "self_test", tuya.valueConverter.raw],
                [9, "self_test_result", tuya.valueConverter.selfTestResult],
                [10, "preheat", tuya.valueConverter.raw],
                [13, null, null], // alarm_switch; ignore for now since it is unclear what it does
                [16, "silence", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_nus5kk3n"]),
        model: "TS0601_gas_sensor_3",
        vendor: "Tuya",
        description: "Gas sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [e.gas(), tuya.exposes.selfTest(), tuya.exposes.selfTestResult(), tuya.exposes.faultAlarm(), tuya.exposes.silence()],
        meta: {
            tuyaDatapoints: [
                [1, "gas", tuya.valueConverter.trueFalse0],
                [9, "self_test_result", tuya.valueConverter.selfTestResult],
                [11, "fault_alarm", tuya.valueConverter.trueFalse1],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_mby4kbtq", "_TZE204_mby4kbtq", "_TZE204_uo8qcagc"]),
        model: "TS0601_gas_sensor_4", // _TZE200_mby4kbtq looks like TS0601_gas_sensor_2
        vendor: "Tuya",
        description: "Gas sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.gas(),
            tuya.exposes.gasValue().withUnit("LEL"),
            e.binary("preheat", ea.STATE, true, false).withDescription("Indicates sensor preheat is active"),
            tuya.exposes.faultAlarm(),
            e.binary("alarm_switch", ea.STATE_SET, true, false),
            tuya.exposes.silence(),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "gas", tuya.valueConverter.trueFalse0],
                [2, "gas_value", tuya.valueConverter.divideBy10],
                [10, "preheat", tuya.valueConverter.raw],
                [11, "fault_alarm", tuya.valueConverter.trueFalse1],
                [13, "alarm_switch", tuya.valueConverter.raw],
                [16, "silence", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_v6iczj35"]),
        model: "ZB-DG03",
        vendor: "Spacetronik",
        description: "LPG gas sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true, forceTimeUpdates: true, queryOnConfigure: true})],
        exposes: [
            e.gas(),
            e.binary("preheat", ea.STATE, true, false).withDescription("Sensor preheat active"),
            e
                .enum("fault", ea.STATE, ["none", "fault", "serious_fault", "sensor_fault", "probe_fault", "power_fault"])
                .withDescription("Fault status of the device (none = no fault)"),
            e.binary("lifecycle", ea.STATE, true, false).withDescription("Sensor lifetime limit"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "gas", tuya.valueConverter.trueFalseEnum0],
                [10, "preheat", tuya.valueConverter.trueFalse1],
                [
                    11,
                    "fault",
                    tuya.valueConverterBasic.lookup({
                        none: 0,
                        fault: 1,
                        serious_fault: 2,
                        sensor_fault: 3,
                        probe_fault: 4,
                        power_fault: 5,
                    }),
                ],
                [12, "lifecycle", tuya.valueConverter.trueFalse0],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_hiith90n"]),
        model: "R3 Smart Switch",
        vendor: "Tuya",
        description: "Circuit Breaker/Switch",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [e.switch()],
        meta: {
            tuyaDatapoints: [[16, "state", tuya.valueConverter.onOff]],
        },
    },
    {
        // Senoro window sensor variant with 3-state opening on DP101.
        fingerprint: tuya.fingerprint("TS0601", ["_TZE284_6teua268"]),
        model: "Senoro.Win v2",
        vendor: "Senoro",
        description: "Window sensor with 3-state opening (DP101), optional alarm, battery",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.enum("opening_state", ea.STATE, ["open", "closed", "tilted"]).withDescription("Opening state"),
            e.binary("alarm_state", ea.STATE_SET, true, false).withDescription("Alarm was triggered."),
            e.binary("setup_mode", ea.STATE_SET, true, false).withDescription("Set mode status"),
            e.binary("alarm_siren", ea.STATE_SET, true, false).withDescription("Activate the siren when the alarm is triggered."),
            e
                .numeric("alarm_siren_duration", ea.STATE_SET)
                .withDescription("Duration of the alarm siren.")
                .withValueMin(5)
                .withValueMax(180)
                .withValueStep(1),
            e.numeric("vibration", ea.STATE).withDescription("Value of vibration."),
            e
                .numeric("vibration_limit", ea.STATE_SET)
                .withDescription("Limit at which a vibration is reported.")
                .withValueMin(0)
                .withValueMax(100)
                .withValueStep(1),
            e.binary("vibration_siren", ea.STATE_SET, true, false).withDescription("Activate the siren when vibrating."),
            e
                .numeric("vibration_siren_duration", ea.STATE_SET)
                .withDescription("Duration of the vibrating siren.")
                .withValueMin(5)
                .withValueMax(180)
                .withValueStep(1),
            e.binary("close_signal", ea.STATE_SET, true, false).withDescription("Enable sound when closing the window."),
            e
                .numeric("transmission_power", ea.STATE_SET)
                .withDescription("Transmission power 11-19. High value > battery consumption.")
                .withValueMin(11)
                .withValueMax(19)
                .withValueStep(1),
            e.binary("magnetic_status", ea.STATE, true, false).withDescription("Magnetic status."),
            e.battery(),
        ],
        meta: {
            tuyaDatapoints: [
                [
                    101,
                    "opening_state",
                    tuya.valueConverterBasic.lookup({
                        open: 0,
                        closed: 1,
                        tilted: 2,
                    }),
                ],
                [16, "alarm_state", tuya.valueConverter.raw],
                [107, "setup_mode", tuya.valueConverter.raw],
                [103, "alarm_siren", tuya.valueConverter.raw],
                [109, "alarm_siren_duration", tuya.valueConverter.raw],
                [102, "vibration", tuya.valueConverter.raw],
                [106, "vibration_limit", tuya.valueConverter.raw],
                [110, "vibration_siren_duration", tuya.valueConverter.raw],
                [108, "vibration_siren", tuya.valueConverter.raw],
                [104, "close_signal", tuya.valueConverter.raw],
                [105, "transmission_power", tuya.valueConverter.raw],
                [111, "magnetic_status", tuya.valueConverter.raw],
                [2, "battery", tuya.valueConverter.raw],
            ],
        },
    },
    {
        zigbeeModel: ["ZG-301Z"],
        fingerprint: [
            ...tuya.fingerprint("TS0001", [
                "_TZ3000_hktqahrq",
                "_TZ3000_q6a3tepg",
                "_TZ3000_skueekg3",
                "_TZ3000_npzfdcof",
                "_TZ3000_5ng23zjs",
                "_TZ3000_rmjr4ufz",
                "_TZ3000_v7gnj3ad",
                "_TZ3000_3a9beq8a",
                "_TZ3000_ark8nv4y",
                "_TZ3000_mx3vgyea",
                "_TZ3000_fdxihpp7",
                "_TZ3000_qsp2pwtf",
                "_TZ3000_kycczpw8",
                "_TZ3000_46t1rvdu",
                "_TZ3000_bhcpnvud",
                "_TZ3000_i9oy2rdq",
            ]),
            ...tuya.fingerprint("TS000F", [
                "_TZ3000_hktqahrq",
                "_TZ3000_m9af2l6g",
                "_TZ3000_mx3vgyea",
                "_TZ3000_skueekg3",
                "_TZ3000_dlhhrhs8",
                "_TZ3000_fdxihpp7",
            ]),
        ],
        model: "WHD02",
        vendor: "Tuya",
        whiteLabel: [
            {vendor: "Tuya", model: "iHSW02"},
            {
                vendor: "HOBEIAN",
                model: "ZG-301Z",
                fingerprint: [{modelID: "ZG-301Z"}],
            },
            tuya.whitelabel("Tuya", "QS-zigbee-S08-16A-RF", "Wall switch module", ["_TZ3000_dlhhrhs8"]),
        ],
        description: "Wall switch module",
        extend: [tuya.modernExtend.tuyaOnOff({switchType: true, onOffCountdown: true})],
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            const endpoint = device.getEndpoint(1);
            await reporting.bind(endpoint, coordinatorEndpoint, ["genOnOff"]);
            await reporting.onOff(endpoint);
        },
    },
    {
        fingerprint: tuya.fingerprint("TS011F", [
            "_TZ3000_mvn6jl7x",
            "_TZ3000_raviyuvk",
            "_TYZB01_hlla45kx",
            "_TZ3000_92qd4sqa",
            "_TZ3000_zwaadvus",
            "_TZ3000_k6fvknrr",
            "_TZ3000_6s5dc9lx",
            "_TZ3000_helyqdvs",
            "_TZ3000_rgpqqmbj",
            "_TZ3000_8nyaanzb",
            "_TZ3000_iy2c3n6p",
            "_TZ3000_qlmnxmac",
            "_TZ3000_sgb0xhwn",
        ]),
        model: "TS011F_2_gang_wall",
        vendor: "Tuya",
        description: "2 gang wall outlet",
        ota: true,
        extend: [
            tuya.modernExtend.tuyaOnOff({
                backlightModeLowMediumHigh: true,
                childLock: true,
                endpoints: ["l1", "l2"],
            }),
        ],
        whiteLabel: [
            tuya.whitelabel("ClickSmart+", "CMA30036", "2 gang socket outlet", ["_TYZB01_hlla45kx"]),
            tuya.whitelabel("Rylike", "RY-WS02Z", "2 gang socket outlet AU", ["_TZ3000_rgpqqmbj", "_TZ3000_8nyaanzb", "_TZ3000_iy2c3n6p"]),
            tuya.whitelabel("Nova Digital", "NT-S2", "2 gang socket outlet BR", ["_TZ3000_sgb0xhwn"]),
        ],
        endpoint: (device) => {
            return {l1: 1, l2: 2};
        },
        meta: {multiEndpoint: true, multiEndpointSkip: ["power_on_behavior"]},
        configure: tuya.configureMagicPacket,
    },
    {
        fingerprint: [
            ...tuya.fingerprint("TS011F", ["_TZ3000_rk2yzt0u", "_TZ3000_o4cjetlm"]),
            ...tuya.fingerprint("TS0001", [
                "_TZ3000_o4cjetlm",
                "_TZ3000_iedbgyxt",
                "_TZ3000_h3noz0a5",
                "_TYZB01_4tlksk8a",
                "_TZ3000_5ucujjts",
                "_TZ3000_h8ngtlxy",
                "_TZ3000_w0ypwa1f",
                "_TZ3000_wpueorev",
                "_TZ3000_cmcjbqup",
            ]),
            ...tuya.fingerprint("TS0011", ["_TYZB01_rifa0wlb"]),
        ],
        model: "ZN231392",
        vendor: "Tuya",
        description: "Smart water/gas valve",
        extend: [tuya.modernExtend.tuyaOnOff({indicatorMode: true})],
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            const endpoint = device.getEndpoint(1);
            await endpoint.read("genOnOff", ["onOff", "moesStartUpOnOff"]);
        },
    },
    {
        zigbeeModel: ["CK-BL702-AL-01(7009_Z102LG03-1)", "CK-BL702-AL-01(7009_Z102LG04-1)", "CK-BL702-AL-01(7009_Z102LG04-2)"],
        model: "CK-BL702-AL-01",
        vendor: "Tuya",
        description: "Zigbee LED bulb",
        toZigbee: [tz.power_on_behavior],
        fromZigbee: [fz.power_on_behavior],
        extend: [
            tuya.modernExtend.tuyaLight({
                colorTemp: {range: [142, 500]},
                color: true,
            }),
        ],
        exposes: [e.power_on_behavior(["off", "on", "toggle", "previous"])],
        meta: {
            moveToLevelWithOnOffDisable: true,
        },
        configure: async (device, coordinatorEndpoint) => {
            const endpoint = device.getEndpoint(1);
            await endpoint.read("genOnOff", ["startUpOnOff"]);
        },
    },
    {
        zigbeeModel: ["SM0001"],
        model: "SM0001",
        vendor: "Tuya",
        description: "Switch",
        extend: [tuya.modernExtend.tuyaOnOff()],
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            await reporting.bind(device.getEndpoint(1), coordinatorEndpoint, ["genOnOff"]);
        },
        whiteLabel: [tuya.whitelabel("Zemismart", "ZM-H7", "Hand wave wall smart switch", ["_TZ3000_jcqs2mrv"])],
    },
    {
        zigbeeModel: ["TS0505"],
        model: "TS0505",
        vendor: "Tuya",
        description: " GU10 zbeacon Zigbee LED bulb",
        extend: [
            m.light({
                colorTemp: {range: [153, 500]},
                color: {modes: ["xy", "hs"]},
            }),
        ],
    },
    {
        zigbeeModel: ["TS0505B"],
        model: "TS0505B_1",
        vendor: "Tuya",
        description: "Zigbee RGB+CCT light",
        whiteLabel: [
            {vendor: "Mercator Ikuü", model: "SMD4106W-RGB-ZB"},
            {vendor: "Tuya", model: "A5C-21F7-01"},
            {vendor: "Mercator Ikuü", model: "S9E27LED9W-RGB-Z"},
            {
                vendor: "Aldi",
                model: "L122CB63H11A9.0W",
                description: "LIGHTWAY smart home LED-lamp - bulb",
            },
            {
                vendor: "Lidl",
                model: "14153706L",
                description: "Livarno smart LED ceiling light",
            },
            {
                vendor: "Zemismart",
                model: "LXZB-ZB-09A",
                description: "Zemismart LED Surface Mounted Downlight 9W RGBW",
            },
            {
                vendor: "Feconn",
                model: "FE-GU10-5W",
                description: "Zigbee GU10 5W smart bulb",
            },
            {vendor: "Nedis", model: "ZBLC1E14"},
            tuya.whitelabel("Aldi", "L122FF63H11A5.0W", "LIGHTWAY smart home LED-lamp - spot", ["_TZ3000_j0gtlepx"]),
            tuya.whitelabel("Aldi", "L122AA63H11A6.5W", "LIGHTWAY smart home LED-lamp - candle", ["_TZ3000_iivsrikg"]),
            tuya.whitelabel("Aldi", "C422AC11D41H140.0W", "MEGOS LED panel RGB+CCT 40W 3600lm 62 x 62 cm", ["_TZ3000_v1srfw9x"]),
            tuya.whitelabel("Aldi", "C422AC14D41H140.0W", "MEGOS LED panel RGB+CCT 40W 3600lm 30 x 120 cm", ["_TZ3000_gb5gaeca"]),
            tuya.whitelabel("Lidl", "14156506L", "Livarno Lux smart LED mood light", ["_TZ3210_r0xgkft5"]),
            tuya.whitelabel("Lidl", "HG08010", "Livarno Home outdoor spotlight", ["_TZ3210_umi6vbsz"]),
            tuya.whitelabel("Lidl", "HG08008", "Livarno Home LED ceiling light", ["_TZ3210_p9ao60da"]),
            tuya.whitelabel("Lidl", "14158704L", "Livarno Home LED floor lamp, RGBW", ["_TZ3210_z1vlyufu"]),
            tuya.whitelabel("Lidl", "14158804L", "Livarno Home LED desk lamp RGBW", ["_TZ3210_hxtfthp5"]),
            tuya.whitelabel("Lidl", "HG07834A/HG09155A/HG08131A", "Livarno Home GU10 spot RGB+CCT", ["_TZ3000_quqaeew6"]),
            tuya.whitelabel("Lidl", "HG07834B/HG09155B/HG08131B", "Livarno Home E14 candle RGB+CCT", ["_TZ3000_th6zqqy6"]),
            tuya.whitelabel("Lidl", "HG07834B", "Livarno Home E14 candle RGB+CCT", ["_TZ3000_wr6g6olr"]),
            tuya.whitelabel("Lidl", "HG08131C", "Livarno Home outdoor E27 bulb in set with flare", ["_TZ3000_q50zhdsc"]),
            tuya.whitelabel("Lidl", "HG07834C/HG09155C/HG08131C", "Livarno Home E27 bulb RGB+CCT", ["_TZ3000_qd7hej8u"]),
            tuya.whitelabel("Lidl", "HG08383B", "Livarno outdoor LED light chain", ["_TZ3000_bwlvyjwk"]),
            tuya.whitelabel("Lidl", "HG08383A", "Livarno outdoor LED light chain", ["_TZ3000_taspddvq"]),
            tuya.whitelabel("Garza Smart", "Garza-Standard-A60", "Standard A60 bulb", ["_TZ3210_sln7ah6r"]),
            tuya.whitelabel("UR Lighting", "TH008L10RGBCCT", "10W RGB+CCT downlight", ["_TZ3210_dn5higyl", "_TZ3210_hicxa0rh"]),
            tuya.whitelabel("Lidl", "HG08007", "Livarno Home outdoor LED band", ["_TZ3210_zbabx9wh"]),
            tuya.whitelabel("Lidl", "399629_2110", "Livarno Lux Ceiling Panel RGB+CCT", ["_TZ3210_c0s1xloa", "_TZ3210_x13bu7za"]),
            tuya.whitelabel("Nous", "P3Z", "Smart light bulb", ["_TZ3210_cieijuw1"]),
            tuya.whitelabel("Moes", "ZLD-RCW_1", "RGB+CCT Zigbee LED controller", ["_TZ3000_7hcgjxpc"]),
            tuya.whitelabel("Moes", "ZB-TD5-RCW-GU10", "RGB+CCT 4.7W GU10 LED bulb", ["_TZ3210_rcggc0ys", "_TZ3210_ljoasixl"]),
            tuya.whitelabel("Moes", "ZB-TDA9-RCW-E27-MS", "RGB+CCT 9W E27 LED bulb", ["_TZ3210_wxa85bwk"]),
            tuya.whitelabel("Moes", "ZB-LZD10-RCW", "10W RGB+CCT Smart Downlight", ["_TZ3210_s9lumfhn", "_TZ3210_jjqdqxfq", "_TZ3210_dwzfzfjc"]),
            tuya.whitelabel("Moes", "ZB-TDC6-RCW-E14", "RGB+CCT 5W E14 LED bulb", ["_TZ3210_ifga63rg"]),
            tuya.whitelabel("MiBoxer", "E3-ZR", "3 in 1 LED Controller", ["_TZB210_wy1pyu1q", "_TZB210_yatkpuha"]),
            tuya.whitelabel("MiBoxer", "SZ5", "5 in 1 LED Controller", ["_TZB210_w9hcix2r"]),
            tuya.whitelabel("MiBoxer", "FUT037Z+", "RGB led controller", ["_TZB210_417ikxay", "_TZB210_wxazcmsh"]),
            tuya.whitelabel("MiBoxer", "FUT039Z", "RGB+CCT LED controller", ["_TZ3210_jicmoite", "_TZB210_rs0ufzwg"]),
            tuya.whitelabel("MiBoxer", "FUT066Z", "RGB+CCT LED Downlight", ["_TZ3210_zrvxvydd"]),
            tuya.whitelabel("MiBoxer", "FUT068ZR", "RGB+CCT LED Downlight", ["_TZB210_endmggws"]),
            tuya.whitelabel("MiBoxer", "FUT103ZR", "GU10 RGB+CCT", ["_TZB210_6eed09b9"]),
            tuya.whitelabel("MiBoxer", "FUT106ZR", "GU10 RGB+CCT", ["_TZB210_rwy5hexp", "_TZB210_lnnkh3f9"]),
            tuya.whitelabel("Tuya", "TS0505B_1_1", "Zigbee 3.0 18W led light bulb E27 RGBCW", [
                "_TZ3210_jd3z4yig",
                "_TZ3210_r5afgmkl",
                "_TZ3210_mja6r5ix",
            ]),
            tuya.whitelabel("MiBoxer", "FUTC11ZR", "Outdoor light", ["_TZB210_zmppwawa"]),
            tuya.whitelabel("TechToy", "_TZ3210_iw0zkcu8", "Smart bulb RGB 9W E27", ["_TZ3210_iw0zkcu8"]),
        ],
        extend: [
            tuya.modernExtend.tuyaLight({
                colorTemp: {range: [153, 500]},
                color: true,
            }),
        ],
        toZigbee: [tzLocal.TS0505B_1_transitionFixesOnOffBrightness],
        configure: (device, coordinatorEndpoint) => {
            device.getEndpoint(1).saveClusterAttributeKeyValue("lightingColorCtrl", {
                colorCapabilities: 29,
            });
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0505B", ["_TZ3210_iystcadi", "_TZ3210_it1u8ahz"]),
        model: "TS0505B_2",
        vendor: "Tuya",
        description: "Zigbee RGB+CCT light",
        whiteLabel: [
            tuya.whitelabel("Lidl", "14149505L/14149506L_2", "Livarno Lux light bar RGB+CCT (black/white)", ["_TZ3210_iystcadi"]),
            tuya.whitelabel("Tuya", "TS0505B_2_2", "Zigbee GU10/E14 5W smart bulb", ["_TZ3210_it1u8ahz"]),
        ],
        toZigbee: [tz.on_off, tzLocal.led_control, tuya.tz.do_not_disturb],
        fromZigbee: [fz.on_off, fz.tuya_led_controller, fz.brightness],
        exposes: [e.light_brightness_colortemp_colorhs([143, 500]).removeFeature("color_temp_startup"), tuya.exposes.doNotDisturb()],
        configure: (device, coordinatorEndpoint) => {
            device.getEndpoint(1).saveClusterAttributeKeyValue("lightingColorCtrl", {
                colorCapabilities: 29,
            });
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0505B", ["_TZB210_3zfp8mki", "_TZB210_gj0ccsar"]),
        model: "TS0505B_3",
        vendor: "Tuya",
        description: "Zigbee RGB+CCT light",
        whiteLabel: [
            tuya.whitelabel("Skydance", "WZ5_dim_2", "Zigbee & RF 5 in 1 LED controller (DIM mode)", ["_TZB210_3zfp8mki"]),
            tuya.whitelabel("QA", "QADZC5", "5 in 1 LED controller", ["_TZB210_gj0ccsar"]),
        ],
        extend: [
            m.light({
                colorTemp: {range: [153, 500]},
                color: {modes: ["hs"], applyRedFix: true, enhancedHue: false},
            }),
        ],
        configure: (device, coordinatorEndpoint) => {
            device.getEndpoint(1).saveClusterAttributeKeyValue("lightingColorCtrl", {
                colorCapabilities: 29,
            });
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0505B", ["_TZ3210_bfwvfyx1"]),
        model: "CK-BL702-AL-01_1",
        vendor: "eWeLink",
        description: "Zigbee 3.0 15W led light bulb E27 RGBCW",
        toZigbee: [tuya.tz.do_not_disturb],
        extend: [
            m.light({
                colorTemp: {range: [25, 1000], startup: true},
                effect: true,
                powerOnBehavior: true,
                moveToLevelWithOnOffDisable: true,
                color: {modes: ["hs", "xy"], enhancedHue: false},
            }),
        ],
        exposes: [tuya.exposes.doNotDisturb()],
        configure: (device, coordinatorEndpoint) => {
            device.getEndpoint(1).saveClusterAttributeKeyValue("lightingColorCtrl", {colorCapabilities: 29});
        },
    },
    {
        zigbeeModel: ["TS0503B"],
        model: "TS0503B",
        vendor: "Tuya",
        description: "Zigbee RGB light",
        whiteLabel: [{vendor: "BTF-Lighting", model: "C03Z"}, tuya.whitelabel("MiBoxer", "FUT037Z", "RGB led controller", ["_TZ3210_778drfdt"])],
        extend: [tuya.modernExtend.tuyaLight({color: true})],
    },
    {
        zigbeeModel: ["TS0504B"],
        model: "TS0504B",
        vendor: "Tuya",
        description: "Zigbee RGBW light",
        toZigbee: [tzLocal.TS0504B_color],
        extend: [tuya.modernExtend.tuyaLight({color: true})],
    },
    {
        zigbeeModel: ["TS0501A"],
        model: "TS0501A",
        description: "Zigbee light",
        vendor: "Tuya",
        extend: [tuyaLight()],
        whiteLabel: [
            tuya.whitelabel("Lidl", "HG06463A", "Livarno Lux E27 ST64 filament bulb", ["_TZ3000_j2w1dw29"]),
            tuya.whitelabel("Lidl", "HG06463B", "Livarno Lux E27 G95 filament bulb", ["_TZ3000_nosnx7im"]),
            tuya.whitelabel("Lidl", "HG06462A", "Livarno Lux E27 A60 filament bulb", ["_TZ3000_7dcddnye", "_TZ3000_nbnmw9nc"]),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS0501B", ["_TZB210_rkgngb5o"]),
        model: "TS0501B_dimmer",
        description: "Zigbee dimmer",
        vendor: "Tuya",
        extend: [tuyaLight({configureReporting: true, effect: false})],
        whiteLabel: [tuya.whitelabel("Tuya", "L1(ZW)", "Light dimmer 0-10V", ["_TZB210_rkgngb5o"])],
    },
    {
        fingerprint: tuya.fingerprint("TS0501B", ["_TZB210_g01ie5wu"]),
        model: "TS0501B_dimmer_2",
        description: "Zigbee dimmer",
        vendor: "Tuya",
        extend: [tuyaLight({minBrightness: "command", effect: false})],
    },
    {
        zigbeeModel: ["TS0501B"],
        model: "TS0501B",
        description: "Zigbee light",
        vendor: "Tuya",
        extend: [
            tuya.modernExtend.tuyaLight({
                doNotDisturb: true,
            }),
        ],
        whiteLabel: [
            tuya.whitelabel("MiBoxer", "FUT036Z", "Single color LED controller", ["_TZ3210_dxroobu3", "_TZ3210_dbilpfqk"]),
            tuya.whitelabel("Mercator Ikuü", "SMFL20W-ZB", "Ridley Floodlight", ["_TZ3000_juq7i1fr"]),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS0202", ["_TYZB01_vwqnz1sn"]),
        model: "TS0202_3",
        vendor: "Tuya",
        description: "Motion detector with illuminance",
        fromZigbee: [fz.ias_occupancy_alarm_1, fz.battery, fz.ias_occupancy_alarm_1_report],
        toZigbee: [],
        extend: [m.illuminance(), tuya.modernExtend.tuyaBase()],
        exposes: [e.occupancy(), e.battery_low(), e.battery(), e.tamper()],
    },
    {
        fingerprint: tuya.fingerprint("TS0202", ["_TZ3210_cwamkvua"]),
        model: "TS0202_2",
        vendor: "Tuya",
        description: "Motion sensor with scene switch",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        fromZigbee: [fz.ias_occupancy_alarm_1, fz.battery],
        configure: async (device, coordinatorEndpoint) => {
            const endpoint = device.getEndpoint(1);
            await reporting.batteryPercentageRemaining(endpoint);
            await reporting.batteryVoltage(endpoint);
        },
        exposes: [
            e.battery(),
            e.battery_voltage(),
            e.occupancy(),
            e.action(["single", "double", "hold"]),
            e.enum("light", ea.STATE, ["dark", "bright"]),
        ],
        meta: {
            tuyaDatapoints: [
                [102, "light", tuya.valueConverterBasic.lookup({dark: false, bright: true})],
                [101, "action", tuya.valueConverterBasic.lookup({single: 0, double: 1, hold: 2})],
            ],
        },
        whiteLabel: [{vendor: "Linkoze", model: "LKMSZ001"}],
    },
    {
        fingerprint: tuya.fingerprint("TS0202", ["_TYZB01_jytabjkb", "_TZ3000_lltemgsf", "_TYZB01_5nr7ncpl", "_TZ3000_mg4dy6z6", "_TZ3000_bsvqrxru"]),
        model: "TS0202_1",
        vendor: "Tuya",
        description: "Motion sensor",
        // Requires alarm_1_with_timeout https://github.com/Koenkk/zigbee2mqtt/issues/2818#issuecomment-776119586
        fromZigbee: [fz.ias_occupancy_alarm_1_with_timeout, fz.battery],
        toZigbee: [],
        exposes: [e.occupancy(), e.battery_low(), e.battery(), e.battery_voltage()],
        configure: async (device, coordinatorEndpoint) => {
            const endpoint = device.getEndpoint(1);
            await reporting.bind(endpoint, coordinatorEndpoint, ["genPowerCfg"]);
            await reporting.batteryPercentageRemaining(endpoint);
        },
    },
    {
        fingerprint: tuya.fingerprint("WHD02", ["_TZ3000_hktqahrq"]),
        zigbeeModel: ["TS0202"],
        model: "TS0202",
        vendor: "Tuya",
        description: "Motion sensor",
        whiteLabel: [
            {vendor: "Mercator Ikuü", model: "SMA02P"},
            {vendor: "Tuya", model: "TY-ZPR06"},
            {vendor: "Tesla Smart", model: "TS0202"},
            tuya.whitelabel("MiBoxer", "PIR1-ZB", "PIR sensor", ["_TZ3040_wqmtjsyk"]),
            tuya.whitelabel("Tuya", "ZMS01", "Motion sensor", ["_TZ3000_otvn3lne"]),
            tuya.whitelabel("Nous", "E2", "Motion sensor", ["_TZ3000_h4wnrtck"]),
            tuya.whitelabel("Tuya", "809WZT", "Motion sensor", ["_TZ3040_bb6xaihh"]),
            tuya.whitelabel("Niceboy", "ORBIS Motion Sensor", "Motion sensor", ["_TZ3000_qomxlryd"]),
            tuya.whitelabel("Luminea", "ZX-5311", "Motion sensor", ["_TZ3000_jmrgyl7o"]),
            tuya.whitelabel("Tuya", "ZP01", "Motion sensor", ["_TZ3000_lf56vpxj"]),
            tuya.whitelabel("Tuya", "HW500A", "Motion sensor", ["_TZ3000_bsvqrxru"]),
            tuya.whitelabel("Nedis", "ZBSM10WT", "Motion sensor", ["_TZ3000_nss8amz9"]),
        ],
        fromZigbee: [fz.ias_occupancy_alarm_1, fz.battery, fz.ias_occupancy_alarm_1_report],
        toZigbee: [],
        exposes: (device, options) => {
            const exps: Expose[] = [e.occupancy(), e.battery_low(), e.battery(), e.battery_voltage()];
            if (!device || !["_TZ3000_bsvqrxru", "_TZ3000_nss8amz9"].includes(device.manufacturerName)) {
                exps.push(e.tamper());
            }

            return exps;
        },
        configure: async (device, coordinatorEndpoint) => {
            const endpoint = device.getEndpoint(1);
            await reporting.bind(endpoint, coordinatorEndpoint, ["genPowerCfg"]);
            try {
                await reporting.batteryPercentageRemaining(endpoint);
                await reporting.batteryVoltage(endpoint);
            } catch {
                /* Fails for some https://github.com/Koenkk/zigbee2mqtt/issues/13708 */
            }
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0202", ["_TZ3040_fwxuzcf4", "_TZ3040_msl6wxk9"]),
        model: "ZM-35H-Q",
        vendor: "Tuya",
        description: "Motion sensor",
        fromZigbee: [fz.ias_occupancy_alarm_1, fz.battery, fz.ZM35HQ_attr, legacy.fromZigbee.ZM35HQ_battery],
        toZigbee: [tz.ZM35HQ_attr],
        extend: [m.quirkCheckinInterval(15000)],
        exposes: [
            e.occupancy(),
            e.battery_low(),
            e.battery(),
            e.enum("sensitivity", ea.ALL, ["low", "medium", "high"]).withDescription("PIR sensor sensitivity"),
            e.enum("keep_time", ea.ALL, [30, 60, 120]).withDescription("PIR keep time in seconds"),
        ],
        configure: tuya.configureMagicPacket,
        whiteLabel: [tuya.whitelabel("Aubess", "40ZH-O", "Motion sensor", ["_TZ3040_msl6wxk9"])],
    },
    {
        zigbeeModel: ["ZG-204Z"],
        fingerprint: tuya.fingerprint("TS0202", ["_TZ3000_mcxw5ehu", "_TZ3000_6ygjfyll", "_TZ3040_6ygjfyll", "_TZ3000_msl6wxk9"]),
        model: "IH012-RT01",
        vendor: "Tuya",
        description: "Motion sensor",
        fromZigbee: [fz.ZM35HQ_attr, fz.battery],
        toZigbee: [tz.ZM35HQ_attr],
        extend: [
            m.quirkCheckinInterval(15000),
            // Occupancy reporting interval is 60s, so allow for one dropped update plus a small safety margin of 5s
            m.iasZoneAlarm({
                zoneType: "occupancy",
                zoneAttributes: ["alarm_1", "battery_low"],
                keepAliveTimeout: 125,
            }),
        ],
        exposes: [
            e.battery(),
            e.battery_voltage(),
            e.enum("sensitivity", ea.ALL, ["low", "medium", "high"]).withDescription("PIR sensor sensitivity"),
            e.enum("keep_time", ea.ALL, [30, 60, 120]).withDescription("PIR keep time in seconds"),
        ],
        configure: async (device, coordinatorEndpoint) => {
            const endpoint = device.getEndpoint(1);
            await reporting.bind(endpoint, coordinatorEndpoint, ["genPowerCfg"]);
            await reporting.batteryPercentageRemaining(endpoint);
            await reporting.batteryVoltage(endpoint);
        },
        whiteLabel: [
            {
                vendor: "HOBEIAN",
                model: "ZG-204Z",
                fingerprint: [{modelID: "ZG-204Z"}],
            },
            tuya.whitelabel("Tuya", "ZMS-102", "Motion sensor", ["_TZ3000_msl6wxk9"]),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS0202", ["_TZ3000_o4mkahkc"]),
        model: "IH012-RT02",
        vendor: "Tuya",
        description: "Motion sensor",
        fromZigbee: [fz.ias_occupancy_alarm_1, fz.ZM35HQ_attr, fz.battery],
        toZigbee: [tz.ZM35HQ_attr],
        extend: [m.quirkCheckinInterval(15000)],
        exposes: [
            e.occupancy(),
            e.battery_low(),
            e.tamper(),
            e.battery(),
            e.battery_voltage(),
            e.enum("sensitivity", ea.ALL, ["low", "medium", "high"]).withDescription("PIR sensor sensitivity"),
            e.enum("keep_time", ea.ALL, [30, 60, 120]).withDescription("PIR keep time in seconds"),
        ],
        configure: async (device, coordinatorEndpoint) => {
            const endpoint = device.getEndpoint(1);
            await reporting.bind(endpoint, coordinatorEndpoint, ["genPowerCfg"]);
            await reporting.batteryPercentageRemaining(endpoint);
            await reporting.batteryVoltage(endpoint);
        },
    },
    {
        fingerprint: [
            ...tuya.fingerprint("TS0207", [
                "_TZ3000_m0vaazab",
                "_TZ3000_ufttklsz",
                "_TZ3000_nkkl7uzv",
                "_TZ3000_misw04hq",
                "_TZ3000_nlsszmzl",
                "_TZ3000_gszjt2xx",
                "_TZ3000_wlquqiiz",
                "_TZ3000_5k5vh43t",
                "_TZ3000_kxlmv9ag",
                "_TZ3000_wmlc9p9z",
                "_TZ3000_shopg9ss",
                "_TZ3000_n0lphcok",
                "_TZ3000_r80pzsb9",
            ]),
            ...tuya.fingerprint("TS0001", ["_TZ3000_n0lphcok", "_TZ3000_wn65ixz9"]),
        ],
        model: "TS0207_repeater",
        vendor: "Tuya",
        description: "Repeater",
        fromZigbee: [fz.linkquality_from_basic],
        toZigbee: [],
        whiteLabel: [tuya.whitelabel("Tuya", "TS0001_repeater", "Zigbee signal repeater", ["_TZ3000_n0lphcok", "_TZ3000_wn65ixz9"])],
        exposes: [],
    },
    {
        zigbeeModel: ["TS0207", "FNB54-WTS08ML1.0", "ZG-222Z"],
        model: "TS0207_water_leak_detector",
        vendor: "Tuya",
        description: "Water leak detector",
        fromZigbee: [fz.ias_water_leak_alarm_1, fz.battery],
        whiteLabel: [
            {vendor: "CR Smart Home", model: "TS0207"},
            {
                vendor: "HOBEIAN",
                model: "ZG-222Z",
                fingerprint: [{modelID: "ZG-222Z"}],
            },
            tuya.whitelabel("Meian", "SW02", "Water leak sensor", ["_TZ3000_kyb656no"]),
            tuya.whitelabel("Aubess", "IH-K665", "Water leak sensor", ["_TZ3000_kstbkt6a"]),
            tuya.whitelabel("HOBEIAN", "ZG-222ZA", "Water leak sensor", ["_TZ3000_k4ej3ww2", "_TZ3000_abaplimj"]),
            tuya.whitelabel("Tuya", "_TZ3000_mqiev3jk", "Solar powered rain sensor", ["_TZ3000_mqiev3jk"]),
            tuya.whitelabel("Tuya", "TS0207_water_leak_detector_1", "Zigbee water flood sensor + 1m probe cable", [
                "_TZ3000_ocjlo4ea",
                "_TZ3000_upgcbody",
            ]),
            tuya.whitelabel("Tuya", "TS0207_water_leak_detector_3", "Zigbee water leak sensor", ["_TYZB01_sqmd19i1"]),
            tuya.whitelabel("Moes", "ZSS-QY-WL-C-MS", "Zigbee water leak sensor", ["_TZ3000_t6jriawg"]),
            tuya.whitelabel("Tuya", "899WZ", "Water leak detector with 80DB Alarm", ["_TZ3000_mugyhz0q"]),
            tuya.whitelabel("Niceboy", "ORBIS Water Sensor", "Water leak sensor", ["_TZ3000_awvmkayh"]),
            tuya.whitelabel("Nous", "E4", "Water Leakage Sensor)", ["_TZ3000_0s9gukzt"]),
        ],
        toZigbee: [],
        configure: async (device, coordinatorEndpoint) => {
            const endpoint = device.getEndpoint(1);
            await reporting.bind(endpoint, coordinatorEndpoint, ["genPowerCfg"]);
            await reporting.batteryPercentageRemaining(endpoint);
        },
        exposes: (device, options) => {
            const exps: Expose[] = [e.water_leak(), e.battery_low(), e.battery()];
            const noTamperModels = [
                // manufacturerName for models without a tamper sensor
                "_TZ3000_mugyhz0q", // Tuya 899WZ
                "_TZ3000_k4ej3ww2", // Aubess IH-K665
                "_TZ3000_kstbkt6a", // Aubess IH-K665
                "_TZ3000_upgcbody", // Zigbee water leak sensor
                "_TYZB01_ttvdudvx", // Zigbee water leak sensor
            ];
            if (!device || !noTamperModels.includes(device.manufacturerName)) {
                exps.push(e.tamper());
            }

            return exps;
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0207", ["_TZ3210_tgvtvdoc", "_TZ3210_p68kms0l"]),
        model: "RB-SRAIN01",
        vendor: "Tuya",
        description: "Solar rain sensor",
        fromZigbee: [tuya.fz.datapoints],
        extend: [m.iasZoneAlarm({zoneType: "rain", zoneAttributes: ["alarm_1"]}), m.battery({percentageReporting: true})],
        exposes: [
            e.illuminance().withUnit("mV"),
            e.numeric("illuminance_average_20min", ea.STATE).withUnit("mV").withDescription("Illuminance average for the last 20 minutes"),
            e.numeric("illuminance_maximum_today", ea.STATE).withUnit("mV").withDescription("Illuminance maximum for the last 24 hours"),
            e.binary("cleaning_reminder", ea.STATE, true, false).withDescription("Cleaning reminder"),
            e.numeric("rain_intensity", ea.STATE).withUnit("mV").withDescription("Rainfall intensity"),
        ],
        meta: {
            tuyaDatapoints: [
                [4, "battery", tuya.valueConverter.raw],
                [101, "illuminance", tuya.valueConverter.raw],
                [102, "illuminance_average_20min", tuya.valueConverter.raw],
                [103, "illuminance_maximum_today", tuya.valueConverter.raw],
                [104, "cleaning_reminder", tuya.valueConverter.trueFalse0],
                [105, "rain_intensity", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0101", ["_TYZB01_ijihzffk", "_TZ3210_tfxwxklq", "_TZ3210_2dfy6tol"]),
        model: "TS0101",
        vendor: "Tuya",
        description: "Zigbee Socket",
        whiteLabel: [
            {vendor: "Larkkey", model: "PS080"},
            {vendor: "Mercator Ikuü", model: "SPBS01G"},
            tuya.whitelabel("Mercator Ikuü", "SISW01", "Inline Switch", ["_TZ3210_2dfy6tol"]),
        ],
        extend: [tuya.modernExtend.tuyaOnOff()],
        configure: async (device, coordinatorEndpoint) => {
            const endpoint = device.getEndpoint(1);
            await reporting.bind(endpoint, coordinatorEndpoint, ["genOnOff"]);
            await reporting.onOff(endpoint);
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0108", ["_TYZB01_7yidyqxd"]),
        model: "TS0108",
        vendor: "Tuya",
        description: "Socket with 2 USB",
        whiteLabel: [{vendor: "Larkkey", model: "PS580"}],
        extend: [tuya.modernExtend.tuyaOnOff()],
        exposes: [e.switch().withEndpoint("l1"), e.switch().withEndpoint("l2")],
        endpoint: (device) => {
            return {l1: 1, l2: 7};
        },
        meta: {multiEndpoint: true, disableDefaultResponse: true},
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            await reporting.bind(device.getEndpoint(1), coordinatorEndpoint, ["genOnOff"]);
            await reporting.bind(device.getEndpoint(7), coordinatorEndpoint, ["genOnOff"]);
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", [
            "_TZE200_myd45weu",
            "_TZE200_ga1maeof",
            "_TZE200_2se8efxh",
            "_TZE204_myd45weu",
            "_TZE284_myd45weu",
            "_TZE284_oitavov2",
            "_TZE284_2se8efxh",
            "_TZE200_9cqcpkgb",
        ]),
        model: "TS0601_soil",
        vendor: "Tuya",
        description: "Soil sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [e.temperature(), e.soil_moisture(), tuya.exposes.temperatureUnit(), e.battery(), tuya.exposes.batteryState()],
        meta: {
            tuyaDatapoints: [
                [3, "soil_moisture", tuya.valueConverter.raw],
                [5, "temperature", tuya.valueConverter.raw],
                [9, "temperature_unit", tuya.valueConverter.temperatureUnit],
                [14, "battery_state", tuya.valueConverter.batteryState],
                [15, "battery", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE284_g2e6cpnw", "_TZE284_sgabhwa6", "_TZE284_awepdiwi"]),
        model: "TS0601_soil_2",
        vendor: "Tuya",
        description: "Soil sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.soil_moisture(),
            e.numeric("temperature", ea.STATE).withUnit("°C").withValueMin(-10).withValueMax(60).withDescription("Soil temperature"),
            e.numeric("temperature_f", ea.STATE).withUnit("°F").withValueMin(14).withValueMax(140).withDescription("Soil temperature"),
            e
                .numeric("temperature_sensitivity", ea.STATE_SET)
                .withUnit("°C")
                .withValueMin(0.3)
                .withValueMax(1)
                .withValueStep(0.1)
                .withDescription("Temperature sensitivity"),
            e.numeric("humidity_sensitivity", ea.STATE_SET).withUnit("%").withValueMin(1).withValueMax(5).withDescription("Humidity sensitivity"),
            e.enum("temperature_alarm", ea.STATE, ["lower_alarm", "upper_alarm", "cancel"]).withDescription("Temperature alarm state"),
            e.enum("humidity_alarm", ea.STATE, ["lower_alarm", "upper_alarm", "cancel"]).withDescription("Humidity alarm state"),
            e
                .numeric("max_temperature_alarm", ea.STATE_SET)
                .withUnit("°C")
                .withValueMin(0)
                .withValueMax(60)
                .withDescription("Upper temperature limit"),
            e
                .numeric("min_temperature_alarm", ea.STATE_SET)
                .withUnit("°C")
                .withValueMin(0)
                .withValueMax(60)
                .withDescription("Lower temperature limit"),
            e.numeric("max_humidity_alarm", ea.STATE_SET).withUnit("%").withValueMin(0).withValueMax(100).withDescription("Upper humidity limit"),
            e.numeric("min_humidity_alarm", ea.STATE_SET).withUnit("%").withValueMin(0).withValueMax(100).withDescription("Lower humidity limit"),
            e.numeric("schedule_periodic", ea.STATE_SET).withUnit("min").withValueMin(5).withValueMax(60).withDescription("Report sensitivity"),
            e.battery(),
            tuya.exposes.batteryState(),
        ],
        meta: {
            tuyaDatapoints: [
                [
                    101,
                    "temperature_alarm",
                    tuya.valueConverterBasic.lookup({
                        lower_alarm: tuya.enum(0),
                        upper_alarm: tuya.enum(1),
                        cancel: tuya.enum(2),
                    }),
                ],
                [
                    102,
                    "humidity_alarm",
                    tuya.valueConverterBasic.lookup({
                        lower_alarm: tuya.enum(0),
                        upper_alarm: tuya.enum(1),
                        cancel: tuya.enum(2),
                    }),
                ],
                [3, "soil_moisture", tuya.valueConverter.raw],
                [5, "temperature", tuya.valueConverter.divideBy10],
                [110, "temperature_f", tuya.valueConverter.divideBy10],
                [107, "temperature_sensitivity", tuya.valueConverter.divideBy10],
                [108, "humidity_sensitivity", tuya.valueConverter.raw],
                [103, "max_temperature_alarm", tuya.valueConverter.divideBy10],
                [104, "min_temperature_alarm", tuya.valueConverter.divideBy10],
                [105, "max_humidity_alarm", tuya.valueConverter.raw],
                [106, "min_humidity_alarm", tuya.valueConverter.raw],
                [109, "schedule_periodic", tuya.valueConverter.raw],
                [15, "battery", tuya.valueConverter.raw],
                [14, "battery_state", tuya.valueConverter.batteryState],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", [
            "_TZE284_aao3yzhs",
            "_TZE284_nhgdf6qr",
            "_TZE284_ap9owrsa",
            "_TZE284_33bwcga2",
            "_TZE284_wckqztdq",
            "_TZE284_3urschql",
        ]),
        model: "TS0601_soil_3",
        vendor: "Tuya",
        description: "Soil sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [e.temperature(), e.soil_moisture(), tuya.exposes.temperatureUnit(), e.battery(), tuya.exposes.batteryState()],
        meta: {
            tuyaDatapoints: [
                [3, "soil_moisture", tuya.valueConverter.raw],
                [5, "temperature", tuya.valueConverter.divideBy10],
                [9, "temperature_unit", tuya.valueConverter.temperatureUnit],
                [14, "battery_state", tuya.valueConverter.batteryState],
                // https://github.com/Koenkk/zigbee-herdsman-converters/pull/8449
                // [15, "battery", tuya.valueConverterBasic.scale(6, 60, 0, 100)], //device reports back false scaling
                // https://github.com/Koenkk/zigbee2mqtt/issues/26215#issuecomment-3466490289
                [15, "battery", tuya.valueConverter.raw],
            ],
        },
        whiteLabel: [
            tuya.whitelabel("GIEX", "GX04", "Soil Moisture Sensor", ["_TZE284_nhgdf6qr"]),
            tuya.whitelabel("GIEX", "GX06", "Soil Moisture Sensor", ["_TZE284_3urschql"]),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE284_nt4pquef"]),
        model: "SGS02Z",
        vendor: "Tuya",
        description: "Soil sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.temperature(),
            e.soil_moisture(),
            tuya.exposes.temperatureUnit(),
            e.enum("illuminance_level", ea.STATE, ["low-", "low", "nor", "high", "high+"]).withDescription("Illuminance level"),
            e.battery(),
        ],
        meta: {
            tuyaDatapoints: [
                [
                    2,
                    "illuminance_level",
                    tuya.valueConverterBasic.lookup({
                        "low-": 0,
                        low: 1,
                        nor: 2,
                        high: 3,
                        "high+": 4,
                    }),
                ],
                [3, "soil_moisture", tuya.valueConverter.raw],
                [5, "temperature", tuya.valueConverter.divideBy10],
                [9, "temperature_unit", tuya.valueConverter.temperatureUnitEnum],
                [15, "battery", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", [
            "_TZE200_ip2akl4w",
            "_TZE200_1agwnems",
            "_TZE200_la2c2uo9",
            "_TZE200_579lguh2",
            "_TZE200_vucankjx",
            "_TZE200_4mh6tyyo",
            "_TZE204_hlx9tnzb",
            "_TZE204_n9ctkb6j",
            "_TZE204_9qhuzgo0",
            "_TZE200_9cxuhakf",
            "_TZE200_a0syesf5",
            "_TZE200_3p5ydos3",
            "_TZE200_swaamsoy",
            "_TZE200_ojzhk75b",
            "_TZE200_w4cryh2i",
            "_TZE200_dfxkcots",
            "_TZE204_68utemio",
            "_TZE200_9i9dt8is",
            "_TZE200_ctq0k47x",
            "_TZE200_ebwgzdqq",
            "_TZE204_vevc4c6g",
            "_TZE200_0nauxa0p",
            "_TZE200_ykgar0ow",
            "_TZE284_m1cvyneb",
            "_TZE200_0hb4rdnp",
            "_TZE200_gne0e6mk",
        ]),
        model: "TS0601_dimmer_1_gang_1",
        vendor: "Tuya",
        description: "1 gang smart dimmer",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: (device, options) => {
            const exps: Expose[] = [
                tuya.exposes.lightBrightnessWithMinMax(),
                tuya.exposes.countdown(),
                e.power_on_behavior().withAccess(ea.STATE_SET),
            ];

            if (!device || !["_TZE200_4mh6tyyo", "_TZE200_ykgar0ow", "_TZE200_0hb4rdnp", "_TZE200_gne0e6mk"].includes(device.manufacturerName)) {
                exps.push(tuya.exposes.lightType(), tuya.exposes.backlightModeOffNormalInverted().withAccess(ea.STATE_SET));
            }

            return exps;
        },
        meta: {
            tuyaDatapoints: [
                [1, "state", tuya.valueConverter.onOff, {skip: tuya.skip.stateOnAndBrightnessPresent}],
                [2, "brightness", tuya.valueConverter.scale0_254to0_1000],
                [3, "min_brightness", tuya.valueConverter.scale0_254to0_1000],
                [4, "light_type", tuya.valueConverter.lightType],
                [5, "max_brightness", tuya.valueConverter.scale0_254to0_1000],
                [6, "countdown", tuya.valueConverter.countdown],
                [14, "power_on_behavior", tuya.valueConverter.powerOnBehavior],
                [21, "backlight_mode", tuya.valueConverter.backlightModeOffNormalInverted],
            ],
        },
        whiteLabel: [
            {vendor: "Lerlink", model: "X706U"},
            {vendor: "Moes", model: "ZS-EUD_1gang"},
            {vendor: "Larkkey", model: "ZSTY-SM-1DMZG-EU"},
            {vendor: "Earda", model: "EDM-1ZAA-EU"},
            {vendor: "Earda", model: "EDM-1ZAB-EU"},
            {vendor: "Earda", model: "EDM-1ZBA-EU"},
            {vendor: "Mercator Ikuü", model: "SSWD01"},
            {vendor: "Moes", model: "ZS-USD"},
            {vendor: "Moes", model: "EDM-1ZBB-EU"},
            tuya.whitelabel("Moes", "ZS-SR-EUD-1", "Star ring smart dimmer switch 1 gang", ["_TZE204_hlx9tnzb"]),
            tuya.whitelabel("Moes", "MS-105Z", "Smart Dimmer module", ["_TZE200_la2c2uo9"]),
            tuya.whitelabel("Mercator Ikuü", "SSWM-DIMZ", "Switch Mechanism", ["_TZE200_9cxuhakf"]),
            tuya.whitelabel("Zemismart", "ZN2S-US1-SD", "Single gang dimmer", ["_TZE204_68utemio"]),
            tuya.whitelabel("Mercator Ikuü", "SSWRM-ZB", "Rotary dimmer mechanism", ["_TZE200_a0syesf5"]),
            tuya.whitelabel("Lonsonho", "EDM-1ZBB-EU", "Smart Dimmer Switch", ["_TZE200_0nauxa0p"]),
            tuya.whitelabel("ION Industries", "ID200W-ZIGB", "LED Zigbee Dimmer", ["_TZE200_ykgar0ow", "_TZE200_4mh6tyyo"]),
            tuya.whitelabel("ION Industries", "90.500.090", "Zigbee Dimmer Master/Slave set", ["_TZE200_0hb4rdnp"]),
            tuya.whitelabel("ION Industries", "90.500.040", "LED Zigbee Dimmer", ["_TZE200_gne0e6mk"]),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_whpb9yts"]),
        model: "TS0601_dimmer_1_gang_2",
        vendor: "Tuya",
        description: "1 gang smart dimmer",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            tuya.exposes.lightBrightness(),
            tuya.exposes.countdown(),
            tuya.exposes.lightType(),
            e.power_on_behavior().withAccess(ea.STATE_SET),
            tuya.exposes.backlightModeOffNormalInverted().withAccess(ea.STATE_SET),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "state", tuya.valueConverter.onOff, {skip: tuya.skip.stateOnAndBrightnessPresent}],
                [3, "brightness", tuya.valueConverter.scale0_254to0_1000],
                [4, "light_type", tuya.valueConverter.lightType],
                [5, "max_brightness", tuya.valueConverter.scale0_254to0_1000],
                [6, "countdown", tuya.valueConverter.countdown],
                [14, "power_on_behavior", tuya.valueConverter.powerOnBehavior],
                [21, "backlight_mode", tuya.valueConverter.backlightModeOffNormalInverted],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_qzaing2g"]),
        model: "TS0601_dimmer_1_gang_3",
        vendor: "Tuya",
        description: "1 gang smart dimmer",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [tuya.exposes.lightBrightness(), e.voltage(), e.current(), e.power(), e.child_lock(), tuya.exposes.backlightModeOffOn()],
        meta: {
            tuyaDatapoints: [
                [16, "backlight_mode", tuya.valueConverter.onOff],
                [21, "current", tuya.valueConverter.divideBy1000],
                [22, "power", tuya.valueConverter.divideBy10],
                [23, "voltage", tuya.valueConverter.divideBy10],
                [101, "child_lock", tuya.valueConverter.lockUnlock],
                [141, "state", tuya.valueConverter.onOff, {skip: tuya.skip.stateOnAndBrightnessPresent}],
                [142, "brightness", tuya.valueConverter.scale0_254to0_1000],
                // Doesn't seem to work
                // https://github.com/Koenkk/zigbee2mqtt/issues/26526#issuecomment-2749559071
                // [143, "min_brightness", tuya.valueConverter.scale0_254to0_1000],
                // [144, "max_brightness", tuya.valueConverter.scale0_254to0_1000],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_fjjbhx9d", "_TZE200_e3oitdyu", "_TZE200_gwkapsoq", "_TZE204_zenj4lxv"]),
        model: "TS0601_dimmer_2",
        vendor: "Tuya",
        description: "2 gang smart dimmer",
        whiteLabel: [
            {vendor: "Moes", model: "ZS-EUD_2gang"},
            {vendor: "Moes", model: "MS-105B"}, // _TZE200_e3oitdyu
            tuya.whitelabel("Moes", "ZS-SR-EUD-2", "Star ring smart dimmer switch 2 gangs", ["_TZE204_zenj4lxv"]),
        ],
        extend: [
            tuya.modernExtend.tuyaMagicPacket(),
            m.deviceEndpoints({endpoints: {l1: 1, l2: 1}}),
            tuya.modernExtend.dpLight({
                state: {
                    dp: 1,
                    type: tuya.dataTypes.bool,
                    valueOn: ["ON", true],
                    valueOff: ["OFF", false],
                    skip: tuya.skip.stateOnAndBrightnessPresent,
                },
                brightness: {
                    dp: 2,
                    type: tuya.dataTypes.number,
                    scale: [0, 254, 0, 1000],
                },
                min: {dp: 3, type: tuya.dataTypes.number, scale: [0, 254, 0, 1000]},
                max: {dp: 5, type: tuya.dataTypes.number, scale: [0, 254, 0, 1000]},
                endpoint: "l1",
            }),
            tuya.modernExtend.dpNumeric({
                name: "countdown",
                dp: 6,
                type: tuya.dataTypes.number,
                expose: tuya.exposes.countdown(),
                endpoint: "l1",
            }),
            tuya.modernExtend.dpLight({
                state: {
                    dp: 7,
                    type: tuya.dataTypes.bool,
                    valueOn: ["ON", true],
                    valueOff: ["OFF", false],
                    skip: tuya.skip.stateOnAndBrightnessPresent,
                },
                brightness: {
                    dp: 8,
                    type: tuya.dataTypes.number,
                    scale: [0, 254, 0, 1000],
                },
                min: {dp: 9, type: tuya.dataTypes.number, scale: [0, 254, 0, 1000]},
                max: {dp: 11, type: tuya.dataTypes.number, scale: [0, 254, 0, 1000]},
                endpoint: "l2",
            }),
            tuya.modernExtend.dpNumeric({
                name: "countdown",
                dp: 12,
                type: tuya.dataTypes.number,
                expose: tuya.exposes.countdown(),
                endpoint: "l2",
            }),
            tuya.modernExtend.dpPowerOnBehavior({
                dp: 14,
                type: tuya.dataTypes.enum,
            }),
            tuya.modernExtend.dpBacklightMode({
                dp: 21,
                type: tuya.dataTypes.enum,
            }),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_vm1gyrso", "_TZE204_1v1dxkck", "_TZE204_znvwzxkq", "_TZE284_znvwzxkq", "_TZE200_vizxbhco"]),
        model: "TS0601_dimmer_3",
        vendor: "Tuya",
        description: "3 gang smart dimmer",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            tuya.exposes.lightBrightnessWithMinMax().withEndpoint("l1"),
            tuya.exposes.lightBrightnessWithMinMax().withEndpoint("l2"),
            tuya.exposes.lightBrightnessWithMinMax().withEndpoint("l3"),
            tuya.exposes.countdown().withEndpoint("l1"),
            tuya.exposes.countdown().withEndpoint("l2"),
            tuya.exposes.countdown().withEndpoint("l3"),
            tuya.exposes.lightType().withEndpoint("l1"),
            tuya.exposes.lightType().withEndpoint("l2"),
            tuya.exposes.lightType().withEndpoint("l3"),
            e.power_on_behavior().withAccess(ea.STATE_SET),
            tuya.exposes.backlightModeOffNormalInverted().withAccess(ea.STATE_SET),
        ],
        meta: {
            multiEndpoint: true,
            tuyaDatapoints: [
                [1, "state_l1", tuya.valueConverter.onOff, {skip: tuya.skip.stateOnAndBrightnessPresent}],
                [2, "brightness_l1", tuya.valueConverter.scale0_254to0_1000],
                [3, "min_brightness_l1", tuya.valueConverter.scale0_254to0_1000],
                [4, "light_type_l1", tuya.valueConverter.lightType],
                [5, "max_brightness_l1", tuya.valueConverter.scale0_254to0_1000],
                [6, "countdown_l1", tuya.valueConverter.countdown],
                [7, "state_l2", tuya.valueConverter.onOff, {skip: tuya.skip.stateOnAndBrightnessPresent}],
                [8, "brightness_l2", tuya.valueConverter.scale0_254to0_1000],
                [9, "min_brightness_l2", tuya.valueConverter.scale0_254to0_1000],
                [10, "light_type_l2", tuya.valueConverter.lightType],
                [11, "max_brightness_l2", tuya.valueConverter.scale0_254to0_1000],
                [12, "countdown_l2", tuya.valueConverter.countdown],
                [14, "power_on_behavior", tuya.valueConverter.powerOnBehaviorEnum],
                [15, "state_l3", tuya.valueConverter.onOff, {skip: tuya.skip.stateOnAndBrightnessPresent}],
                [16, "brightness_l3", tuya.valueConverter.scale0_254to0_1000],
                [17, "min_brightness_l3", tuya.valueConverter.scale0_254to0_1000],
                [18, "light_type_l3", tuya.valueConverter.lightType],
                [19, "max_brightness_l3", tuya.valueConverter.scale0_254to0_1000],
                [20, "countdown_l3", tuya.valueConverter.countdown],
                [21, "backlight_mode", tuya.valueConverter.backlightModeOffNormalInverted],
            ],
        },
        endpoint: (device) => {
            return {l1: 1, l2: 1, l3: 1};
        },
        whiteLabel: [
            {vendor: "Moes", model: "ZS-EUD_3gang"},
            tuya.whitelabel("Moes", "ZS-SR-EUD-3", "Star ring smart dimmer switch 3 gangs", ["_TZE204_1v1dxkck"]),
            tuya.whitelabel("Zemismart", "ZN2S-RS3E-DH", "3 gang dimmer", ["_TZE204_znvwzxkq", "_TZE284_znvwzxkq"]),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_bxoo2swd", "_TZE200_tsxpl0d0"]),
        model: "TS0601_dimmer_4",
        vendor: "Tuya",
        description: "2 gang smart dimmer module",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            tuya.exposes.lightBrightnessWithMinMax().withEndpoint("l1"),
            tuya.exposes.lightBrightnessWithMinMax().withEndpoint("l2"),
            tuya.exposes.countdown().withEndpoint("l1"),
            tuya.exposes.countdown().withEndpoint("l2"),
            tuya.exposes.lightType().withEndpoint("l1"),
            tuya.exposes.lightType().withEndpoint("l2"),
            e.enum("power_on_behavior", ea.STATE_SET, ["off", "on", "previous"]),
        ],
        meta: {
            multiEndpoint: true,
            tuyaDatapoints: [
                [1, "state_l1", tuya.valueConverter.onOff, {skip: tuya.skip.stateOnAndBrightnessPresent}],
                [2, "brightness_l1", tuya.valueConverter.scale0_254to0_1000],
                [3, "min_brightness_l1", tuya.valueConverter.scale0_254to0_1000],
                [
                    4,
                    "light_type_l1",
                    tuya.valueConverterBasic.lookup({
                        led: tuya.enum(0),
                        incandescent: tuya.enum(1),
                        halogen: tuya.enum(2),
                    }),
                ],
                [5, "max_brightness_l1", tuya.valueConverter.scale0_254to0_1000],
                [6, "countdown_l1", tuya.valueConverter.countdown],
                [7, "state_l2", tuya.valueConverter.onOff, {skip: tuya.skip.stateOnAndBrightnessPresent}],
                [8, "brightness_l2", tuya.valueConverter.scale0_254to0_1000],
                [9, "min_brightness_l2", tuya.valueConverter.scale0_254to0_1000],
                [
                    10,
                    "light_type_l2",
                    tuya.valueConverterBasic.lookup({
                        led: tuya.enum(0),
                        incandescent: tuya.enum(1),
                        halogen: tuya.enum(2),
                    }),
                ],
                [11, "max_brightness_l2", tuya.valueConverter.scale0_254to0_1000],
                [12, "countdown_l2", tuya.valueConverter.countdown],
                [
                    14,
                    "power_on_behavior",
                    tuya.valueConverterBasic.lookup({
                        off: tuya.enum(0),
                        on: tuya.enum(1),
                        previous: tuya.enum(2),
                    }),
                ],
            ],
        },
        endpoint: (device) => {
            return {l1: 1, l2: 1};
        },
        whiteLabel: [
            tuya.whitelabel("Moes", "ZM-105B-M", "2 gang smart dimmer module", ["_TZE204_bxoo2swd"]),
            tuya.whitelabel("KnockautX", "FMD2C018", "2 gang smart dimmer module", ["_TZE200_tsxpl0d0"]),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_dcnsggvz"]),
        model: "TS0601_dimmer_5",
        vendor: "Tuya",
        description: "1 gang smart dimmer module",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            tuya.exposes.lightBrightnessWithMinMax(),
            e.enum("power_on_behavior", ea.STATE_SET, ["off", "on", "previous"]),
            tuya.exposes.countdown(),
            tuya.exposes.lightType(),
            tuya.exposes.switchType(),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "state", tuya.valueConverter.onOff, {skip: tuya.skip.stateOnAndBrightnessPresent}],
                [2, "brightness", tuya.valueConverter.scale0_254to0_1000],
                [3, "min_brightness", tuya.valueConverter.scale0_254to0_1000],
                [
                    4,
                    "light_type",
                    tuya.valueConverterBasic.lookup({
                        led: tuya.enum(0),
                        incandescent: tuya.enum(1),
                        halogen: tuya.enum(2),
                    }),
                ],
                [4, "light_type", tuya.valueConverter.lightType],
                [5, "max_brightness", tuya.valueConverter.scale0_254to0_1000],
                [6, "countdown", tuya.valueConverter.countdown],
                [
                    14,
                    "power_on_behavior",
                    tuya.valueConverterBasic.lookup({
                        off: tuya.enum(0),
                        on: tuya.enum(1),
                        previous: tuya.enum(2),
                    }),
                ],
                [
                    57,
                    "switch_type",
                    tuya.valueConverterBasic.lookup({
                        toggle: tuya.enum(0),
                        state: tuya.enum(1),
                        momentary: tuya.enum(2),
                    }),
                ],
            ],
        },
        whiteLabel: [{vendor: "Moes", model: "MS-105-M"}],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_p0gzbqct"]),
        model: "TS0601_dimmer_knob",
        vendor: "Tuya",
        description: "Zigbee smart knob dimmer",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            tuya.exposes.lightBrightness().withMinBrightness().setAccess("min_brightness", ea.STATE_SET),
            tuya.exposes.lightType(),
            tuya.exposes.indicatorModeNoneRelayPos(),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "state", tuya.valueConverter.onOff, {skip: tuya.skip.stateOnAndBrightnessPresent}],
                [2, "brightness", tuya.valueConverter.scale0_254to0_1000],
                [3, "min_brightness", tuya.valueConverter.scale0_254to0_1000],
                [4, "light_type", tuya.valueConverter.lightType],
                [21, "indicator_mode", tuya.valueConverterBasic.lookup({none: 0, relay: 1, pos: 2})],
            ],
        },
        whiteLabel: [
            {vendor: "Moes", model: "WS-SY-EURD"},
            {vendor: "Moes", model: "WS-SY-EURD-WH-MS"},
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS011F", ["_TZ3000_oiymh3qu"]),
        model: "TS011F_socket_module",
        vendor: "Tuya",
        description: "Socket module",
        extend: [tuya.modernExtend.tuyaOnOff()],
        whiteLabel: [
            {vendor: "LoraTap", model: "RR400ZB"},
            {vendor: "LoraTap", model: "SP400ZB"},
        ],
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            const endpoint = device.getEndpoint(1);
            await reporting.bind(endpoint, coordinatorEndpoint, ["genOnOff"]);
            await reporting.onOff(endpoint);
        },
    },
    {
        fingerprint: tuya.fingerprint("TS011F", ["_TZ3000_wxtp7c5y", "_TYZB01_mtunwanm"]),
        model: "TS011F_wall_outlet",
        vendor: "Tuya",
        description: "In-wall outlet",
        extend: [tuya.modernExtend.tuyaOnOff()],
        whiteLabel: [
            {vendor: "Teekar", model: "SWP86-01OG"},
            tuya.whitelabel("ClickSmart+", "CMA30035", "1 gang socket outlet", ["_TYZB01_mtunwanm"]),
            {vendor: "BSEED", model: "Zigbee Socket"},
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS0001", ["_TZ3210_fhx7lk3d"]),
        model: "CMA30651",
        vendor: "ClickSmart+",
        description: "13A Smart Switched Fused Connection Unit",
        extend: [
            tuya.modernExtend.tuyaOnOff({
                onOffCountdown: true,
            }),
        ],
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            await reporting.bind(device.getEndpoint(1), coordinatorEndpoint, ["genOnOff"]);
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0011", ["_TZ3000_uaa34g7v"]),
        model: "CSP041",
        vendor: "ClickSmart+",
        description: "1 gang switch module without neutral wire",
        extend: [m.onOff({powerOnBehavior: false})],
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            await reporting.bind(device.getEndpoint(1), coordinatorEndpoint, ["genOnOff"]);
            device.powerSource = "Mains (single phase)";
            device.save();
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0003", ["_TYZB01_u9kkqh5o"]),
        model: "CSP043",
        vendor: "ClickSmart+",
        description: "1 gang switch module with neutral wire",
        extend: [m.onOff({powerOnBehavior: false})],
    },
    {
        fingerprint: tuya.fingerprint("TS0012", ["_TZ3000_biakwrag"]),
        model: "CSP042",
        vendor: "ClickSmart+",
        description: "2 gang switch module without neutral wire",
        extend: [
            tuya.modernExtend.tuyaOnOff({
                switchType: false,
                endpoints: ["l1", "l2"],
            }),
        ],
        endpoint: (device) => {
            return {l1: 1, l2: 2};
        },
        meta: {multiEndpoint: true, multiEndpointSkip: ["power_on_behavior"]},
    },
    {
        fingerprint: tuya.fingerprint("TS110F", ["_TZ3000_estfrmup", "_TZ3000_ktuoyvt5"]),
        model: "CSP051",
        vendor: "ClickSmart+",
        description: "1 gang smart dimmer switch module without neutral",
        extend: [m.light()],
        whiteLabel: [tuya.whitelabel("Lonsonho", "QS-Zigbee-D02-TRIAC-L", "1 gang smart dimmer switch module without neutral", ["_TZ3000_ktuoyvt5"])],
    },
    {
        fingerprint: tuya.fingerprint("TS110F", ["_TZ3000_hexqj6ls"]),
        model: "CSP052",
        vendor: "ClickSmart+",
        description: "2 gang smart dimmer switch module without neutral",
        extend: [
            m.deviceEndpoints({endpoints: {l1: 1, l2: 2}}),
            m.light({
                powerOnBehavior: false,
                endpointNames: ["l1", "l2"],
                configureReporting: true,
            }),
        ],
        meta: {multiEndpoint: true},
    },
    {
        fingerprint: [...tuya.fingerprint("isltm67\u0000", ["_TYST11_pisltm67"]), ...tuya.fingerprint("TS0601", ["_TZE200_pisltm67"])],
        model: "S-LUX-ZB",
        vendor: "Tuya",
        description: "Light sensor",
        fromZigbee: [legacy.fromZigbee.SLUXZB],
        toZigbee: [],
        configure: async (device, coordinatorEndpoint) => {
            const endpoint = device.getEndpoint(1);
            await reporting.bind(endpoint, coordinatorEndpoint, ["genBasic"]);
        },
        exposes: [e.battery(), e.illuminance(), e.enum("brightness_level", ea.STATE, ["LOW", "MEDIUM", "HIGH"])],
    },
    {
        zigbeeModel: ["TS130F"],
        model: "TS130F",
        vendor: "Tuya",
        description: "Curtain/blind switch",
        fromZigbee: [
            fz.cover_position_tilt,
            tuya.fz.indicator_mode,
            fz.tuya_cover_options,
            tuya.fz.backlight_mode_off_on,
            tuya.fz.switch_type_curtain,
        ],
        toZigbee: [
            tz.cover_state,
            tz.cover_position_tilt,
            tz.tuya_cover_calibration,
            tz.tuya_cover_reversal,
            tuya.tz.backlight_indicator_mode_2,
            tuya.tz.backlight_indicator_mode_1,
            tuya.tz.switch_type_curtain,
        ],
        meta: {coverInverted: true},
        whiteLabel: [
            tuya.whitelabel("BSEED", "EC-GL86ZPCRS31", "Curtain/blind switch", ["_TZ3000_bs93npae"]),
            tuya.whitelabel("Danor", "SK-Z802C-US", "Smart curtain/shutter switch", ["_TZ3000_8h7wgocw"]),
            {vendor: "LoraTap", model: "SC400"},
            tuya.whitelabel("LoraTap", "SC500ZB", "Smart curtain/shutter switch", ["_TZ3000_e3vhyirx", "_TZ3000_femsaaua"]),
            tuya.whitelabel("LoraTap", "SC500ZB-v4", "Smart curtain/shutter switch", ["_TZ3000_5iixzdo7"]),
            tuya.whitelabel("Nous", "B4Z", "Curtain switch", ["_TZ3000_yruungrl"]),
            tuya.whitelabel("Nous", "L12Z", "Smart Zigbee Curtain Module L12Z", ["_TZ3000_jwv3cwak"]),
            tuya.whitelabel("Zemismart", "ZN-LC1E", "Smart curtain/shutter switch", ["_TZ3000_74hsp7qy"]),
            tuya.whitelabel("Girier", "TS130F_GIRIER", "Smart curtain switch", ["_TZ3210_dwytrmda"]),
            tuya.whitelabel("Zemismart", "TS130F_ZEMISMART", "Smart curtain wall switch", ["_TZ3000_vw8pawxa"]),
            tuya.whitelabel("QA", "QACZ1", "Smart curtain switch", ["_TZ3210_xbpt8ewc"]),
        ],
        exposes: (device) => {
            const exps: Expose[] = [
                e.cover_position(),
                e.enum("moving", ea.STATE, ["UP", "STOP", "DOWN"]),
                e.binary("motor_reversal", ea.ALL, "ON", "OFF"),
            ];
            if (["_TZ3000_yruungrl", "_TZ3210_dwytrmda", "_TZ3210_xbpt8ewc", "_TZ3000_vw8pawxa"].includes(device.manufacturerName)) {
                exps.push(e.binary("calibration", ea.ALL, "ON", "OFF"), e.numeric("calibration_time", ea.ALL).withUnit("s"));
            } else if (["_TZ3000_cet6ch1r", "_TZ3000_5iixzdo7"].includes(device.manufacturerName)) {
                exps.push(
                    e.binary("calibration_to_open", ea.ALL, "ON", "OFF"),
                    e.binary("calibration_to_close", ea.ALL, "ON", "OFF"),
                    e.numeric("calibration_time_to_open", ea.ALL).withUnit("s"),
                    e.numeric("calibration_time_to_close", ea.ALL).withUnit("s"),
                );
            } else {
                exps.push(e.binary("calibration", ea.ALL, "ON", "OFF"), e.numeric("calibration_time", ea.STATE).withUnit("s"));
            }
            if (
                !["_TZ3000_e3vhyirx", "_TZ3000_5iixzdo7", "_TZ3000_yruungrl", "_TZ3210_dwytrmda", "_TZ3210_xbpt8ewc"].includes(
                    device.manufacturerName,
                )
            ) {
                exps.push(tuya.exposes.indicatorMode(), tuya.exposes.backlightModeOffOn());
            }
            if (["_TZ3000_5iixzdo7"].includes(device.manufacturerName)) {
                exps.push(tuya.exposes.switchTypeCurtain());
            } else if (["_TZ3000_yruungrl"].includes(device.manufacturerName)) {
                exps.push(
                    e.enum("switch_type_curtain", ea.ALL, ["flip-switch", "sync-switch", "button-switch"]).withDescription("External switch type"),
                );
            }
            return exps;
        },
    },
    {
        fingerprint: tuya.fingerprint("TS130F", ["_TZ3000_1dd0d5yi"]),
        model: "MS-108ZR",
        vendor: "Moes",
        description: "Zigbee + RF curtain switch module",
        ota: true,
        meta: {coverInverted: true},
        fromZigbee: [fz.tuya_cover_options, fz.cover_position_tilt],
        toZigbee: [tz.cover_state, tz.moes_cover_calibration, tz.cover_position_tilt, tz.tuya_cover_reversal],
        exposes: [
            e.cover_position(),
            e.numeric("calibration_time", ea.ALL).withValueMin(0).withValueMax(500).withUnit("s"),
            e.enum("moving", ea.STATE, ["UP", "STOP", "DOWN"]),
            e.binary("motor_reversal", ea.ALL, "ON", "OFF"),
        ],
    },
    {
        zigbeeModel: ["qnazj70", "kjintbl"],
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_oisqyl4o", "_TZ3000_uim07oem", "_TZE200_js3mgbjb", "_TZE200_7deq70b8", "_TZE204_ptaqh9tk"]),
        model: "TS0601_switch",
        vendor: "Tuya",
        description: "1, 2, 3 or 4 gang switch",
        exposes: [
            e.switch().withEndpoint("l1").setAccess("state", ea.STATE_SET),
            e.switch().withEndpoint("l2").setAccess("state", ea.STATE_SET),
            e.switch().withEndpoint("l3").setAccess("state", ea.STATE_SET),
            e.switch().withEndpoint("l4").setAccess("state", ea.STATE_SET),
        ],
        fromZigbee: [legacy.fromZigbee.tuya_switch],
        toZigbee: [legacy.toZigbee.tuya_switch_state],
        meta: {multiEndpoint: true},
        whiteLabel: [
            {vendor: "Norklmes", model: "MKS-CM-W5"},
            {vendor: "Somgoms", model: "ZSQB-SMB-ZB"},
            {vendor: "Moes", model: "WS-EUB1-ZG"},
            {vendor: "AVATTO", model: "ZGB-WS-EU"},
        ],
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            await reporting.bind(device.getEndpoint(1), coordinatorEndpoint, ["genOnOff"]);
            if (device.getEndpoint(2)) await reporting.bind(device.getEndpoint(2), coordinatorEndpoint, ["genOnOff"]);
            if (device.getEndpoint(3)) await reporting.bind(device.getEndpoint(3), coordinatorEndpoint, ["genOnOff"]);
            if (device.getEndpoint(4)) await reporting.bind(device.getEndpoint(4), coordinatorEndpoint, ["genOnOff"]);
        },
        endpoint: (device) => {
            // Endpoint selection is made in tuya_switch_state
            return {l1: 1, l2: 1, l3: 1, l4: 1};
        },
    },
    {
        zigbeeModel: ["TS0301"],
        model: "TS0301",
        vendor: "Tuya",
        description: "Cover",
        extend: [m.battery(), m.windowCovering({controls: ["lift"]})],
        whiteLabel: [tuya.whitelabel("Yookee", "D10110_1", "Smart blind", ["_TZE200_9caxna4s"])],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", [
            "_TZE200_aqnazj70",
            "_TZE200_di3tfv5b",
            "_TZE200_mexisfik",
            "_TZE204_mexisfik",
            "_TZE204_6wi2mope",
            "_TZE200_6wi2mope",
            "_TZE204_iik0pquw",
            "_TZE204_aagrxlbd",
            "_TZE204_f5efvtbv",
            "_TZE284_f5efvtbv",
            "_TZE204_lbhh5o6z",
            "_TZE284_lbhh5o6z",
        ]),
        model: "TS0601_switch_4_gang_1",
        vendor: "Tuya",
        description: "4 gang switch",
        exposes: [
            tuya.exposes.switch().withEndpoint("l1"),
            tuya.exposes.switch().withEndpoint("l2"),
            tuya.exposes.switch().withEndpoint("l3"),
            tuya.exposes.switch().withEndpoint("l4"),
        ],
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        whiteLabel: [
            tuya.whitelabel("ZYXH", "TY-04Z", "4 gang switch", ["_TZE204_iik0pquw"]),
            {vendor: "Norklmes", model: "MKS-CM-W5"},
            {vendor: "Somgoms", model: "ZSQB-SMB-ZB"},
            {vendor: "Moes", model: "WS-EUB1-ZG"},
            {vendor: "AVATTO", model: "ZGB-WS-EU"},
            tuya.whitelabel("AVATTO", "WSMD-4", "4 gang switch", ["_TZE204_f5efvtbv", "_TZE284_f5efvtbv"]),
            tuya.whitelabel("AVATTO", "ZWSMD-4", "4 gang switch", ["_TZE204_lbhh5o6z", "_TZE284_lbhh5o6z"]),
            tuya.whitelabel("Tuya", "MG-ZG04W", "4 gang switch", ["_TZE204_mexisfik"]),
        ],
        meta: {
            multiEndpoint: true,
            tuyaDatapoints: [
                [1, "state_l1", tuya.valueConverter.onOff],
                [2, "state_l2", tuya.valueConverter.onOff],
                [3, "state_l3", tuya.valueConverter.onOff],
                [4, "state_l4", tuya.valueConverter.onOff],
            ],
        },
        endpoint: (device) => {
            return {l1: 1, l2: 1, l3: 1, l4: 1};
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_jwsjbxjs", "_TZE200_leaqthqq"]),
        model: "TS0601_switch_5_gang",
        vendor: "Tuya",
        description: "5 gang switch",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            tuya.exposes.switch().withEndpoint("l1"),
            tuya.exposes.switch().withEndpoint("l2"),
            tuya.exposes.switch().withEndpoint("l3"),
            tuya.exposes.switch().withEndpoint("l4"),
            tuya.exposes.switch().withEndpoint("l5"),
        ],
        endpoint: (device) => {
            return {l1: 1, l2: 1, l3: 1, l4: 1, l5: 1};
        },
        meta: {
            multiEndpoint: true,
            tuyaDatapoints: [
                [1, "state_l1", tuya.valueConverter.onOff],
                [2, "state_l2", tuya.valueConverter.onOff],
                [3, "state_l3", tuya.valueConverter.onOff],
                [4, "state_l4", tuya.valueConverter.onOff],
                [5, "state_l5", tuya.valueConverter.onOff],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", [
            "_TZE200_mwvfvw8g",
            "_TZE200_wnp4d4va",
            "_TZE200_cduqh1l0",
            "_TZE200_emxxanvi",
            "_TZE204_g4au0afs",
            "_TZE204_w1wwxoja",
            "_TZE204_lmgrbuwf",
            "_TZE284_tdhnhhiy",
            "_TZE204_wskr3up8",
            "_TZE204_gxbdnfrh",
        ]),
        model: "TS0601_switch_6_gang",
        vendor: "Tuya",
        description: "6 gang switch",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        configure: async (device, coordinatorEndpoint) => {
            const endpoint = device.getEndpoint(1);
            await reporting.bind(endpoint, coordinatorEndpoint, ["genOnOff"]);
            device.powerSource = "Mains (single phase)";
            device.save();
        },
        exposes: [
            tuya.exposes.switch().withEndpoint("l1"),
            tuya.exposes.switch().withEndpoint("l2"),
            tuya.exposes.switch().withEndpoint("l3"),
            tuya.exposes.switch().withEndpoint("l4"),
            tuya.exposes.switch().withEndpoint("l5"),
            tuya.exposes.switch().withEndpoint("l6"),
        ],
        endpoint: (device) => {
            return {l1: 1, l2: 1, l3: 1, l4: 1, l5: 1, l6: 1};
        },
        meta: {
            multiEndpoint: true,
            tuyaDatapoints: [
                [1, "state_l1", tuya.valueConverter.onOff],
                [2, "state_l2", tuya.valueConverter.onOff],
                [3, "state_l3", tuya.valueConverter.onOff],
                [4, "state_l4", tuya.valueConverter.onOff],
                [5, "state_l5", tuya.valueConverter.onOff],
                [6, "state_l6", tuya.valueConverter.onOff],
            ],
        },
        whiteLabel: [
            tuya.whitelabel("Mercator Ikuü", "SSW06G", "6 Gang switch", ["_TZE200_wnp4d4va"]),
            tuya.whitelabel("Nova Digital", "NTZB-04-W-B", "4 gang switch with 2 gang socket 4x4", ["_TZE204_lmgrbuwf"]),
            tuya.whitelabel("Nova Digital", "SYZB-6W", "6 gang switch 4x4", ["_TZE284_tdhnhhiy"]),
            tuya.whitelabel("Nova Digital", "FZB-6", "6 gang switch 4x4", ["_TZE204_wskr3up8"]),
            tuya.whitelabel("Nova Digital", "SA-6", "Safira smart switch - 6 gang", ["_TZE204_gxbdnfrh"]),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_raz9qavg"]),
        model: "KRC-103",
        vendor: "Videosec",
        description: "6 gang kinetic switch actuator",
        extend: [tuya.modernExtend.tuyaBase({dp: true}), m.deviceEndpoints({endpoints: {l1: 1, l2: 1, l3: 1, l4: 1, l5: 1, l6: 1}})],
        exposes: [
            e.switch().withEndpoint("l1"),
            e.switch().withEndpoint("l2"),
            e.switch().withEndpoint("l3"),
            e.switch().withEndpoint("l4"),
            e.switch().withEndpoint("l5"),
            e.switch().withEndpoint("l6"),
        ],
        meta: {
            tuyaDatapoints: [
                [19, "state_l1", tuya.valueConverter.onOff],
                [20, "state_l2", tuya.valueConverter.onOff],
                [21, "state_l3", tuya.valueConverter.onOff],
                [22, "state_l4", tuya.valueConverter.onOff],
                [23, "state_l5", tuya.valueConverter.onOff],
                [24, "state_l6", tuya.valueConverter.onOff],
            ],
        },
    },
    {
        zigbeeModel: ["ZG-302Z1"],
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_ojtqawav", "_TZE204_gbagoilo", "_TZE200_ojtqawav"]),
        model: "TS0601_switch_1_gang",
        vendor: "Tuya",
        description: "1 gang switch",
        exposes: [e.switch().setAccess("state", ea.STATE_SET)],
        fromZigbee: [legacy.fromZigbee.tuya_switch],
        toZigbee: [legacy.toZigbee.tuya_switch_state],
        whiteLabel: [tuya.whitelabel("Shawader", "SMKG-1KNL-US/TZB-W", "1 gang switch", ["_TZE204_ojtqawav"])],
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            await reporting.bind(device.getEndpoint(1), coordinatorEndpoint, ["genOnOff"]);
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_gbagoilo"]),
        model: "MG-ZG01W",
        vendor: "Tuya",
        description: "1 gang switch with power meter",
        exposes: [
            tuya.exposes.switch(),
            tuya.exposes.countdown(),
            e.voltage(),
            e.current(),
            e.power(),
            e.power_on_behavior().withAccess(ea.STATE_SET),
            tuya.exposes.backlightModeOffOn().withAccess(ea.STATE_SET),
        ],
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        meta: {
            tuyaDatapoints: [
                [1, "state", tuya.valueConverter.onOff],
                [7, "countdown", tuya.valueConverter.countdown],
                [14, "power_on_behavior", tuya.valueConverter.powerOnBehavior],
                [16, "backlight_mode", tuya.valueConverter.onOff],
                [21, "current", tuya.valueConverter.divideBy1000],
                [22, "power", tuya.valueConverter.divideBy10],
                [23, "voltage", tuya.valueConverter.divideBy10],
            ],
        },
    },
    {
        zigbeeModel: ["ZG-302Z2"],
        fingerprint: tuya.fingerprint("TS0601", [
            "_TZE200_nkjintbl",
            "_TZE200_ji1gn7rw",
            "_TZE200_3t91nb6k",
            "_TZE204_wvovwe9h",
            "_TZE200_wvovwe9h",
            "_TZE204_3t91nb6k",
        ]),
        model: "TS0601_switch_2_gang",
        vendor: "Tuya",
        description: "2 gang switch",
        exposes: [e.switch().withEndpoint("l1").setAccess("state", ea.STATE_SET), e.switch().withEndpoint("l2").setAccess("state", ea.STATE_SET)],
        fromZigbee: [legacy.fromZigbee.tuya_switch],
        toZigbee: [legacy.toZigbee.tuya_switch_state],
        meta: {multiEndpoint: true},
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            await reporting.bind(device.getEndpoint(1), coordinatorEndpoint, ["genOnOff"]);
            if (device.getEndpoint(2)) await reporting.bind(device.getEndpoint(2), coordinatorEndpoint, ["genOnOff"]);
        },
        endpoint: (device) => {
            // Endpoint selection is made in tuya_switch_state
            return {l1: 1, l2: 1};
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_nh9m9emk"]),
        model: "MG-ZG02W",
        vendor: "Tuya",
        description: "2 gang switch",
        exposes: [e.switch().withEndpoint("l1").setAccess("state", ea.STATE_SET), e.switch().withEndpoint("l2").setAccess("state", ea.STATE_SET)],
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        meta: {
            multiEndpoint: true,
            tuyaDatapoints: [
                [1, "state_l1", tuya.valueConverter.onOff],
                [2, "state_l2", tuya.valueConverter.onOff],
            ],
        },
        endpoint: (device) => {
            return {l1: 1, l2: 1};
        },
    },
    {
        zigbeeModel: ["ZG-302Z3"],
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_kyfqmmyl", "_TZE200_2hf7x9n3", "_TZE204_atpwqgml", "_TZE200_bynnczcb", "_TZE200_atpwqgml"]),
        model: "TS0601_switch_3_gang",
        vendor: "Tuya",
        description: "3 gang switch",
        whiteLabel: [
            {
                vendor: "Nova Digital",
                model: "WS-US-ZB",
                description: "Interruptor touch Zigbee 3 Teclas",
            },
        ],
        exposes: [
            e.switch().withEndpoint("l1").setAccess("state", ea.STATE_SET),
            e.switch().withEndpoint("l2").setAccess("state", ea.STATE_SET),
            e.switch().withEndpoint("l3").setAccess("state", ea.STATE_SET),
        ],
        fromZigbee: [legacy.fromZigbee.tuya_switch],
        toZigbee: [legacy.toZigbee.tuya_switch_state],
        meta: {multiEndpoint: true},
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            await reporting.bind(device.getEndpoint(1), coordinatorEndpoint, ["genOnOff"]);
            await reporting.bind(device.getEndpoint(2), coordinatorEndpoint, ["genOnOff"]);
        },
        endpoint: (device) => {
            // Endpoint selection is made in tuya_switch_state
            return {l1: 1, l2: 1, l3: 1};
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_2imwyigp", "_TZE200_2imwyigp", "_TZE200_go3tvswy"]),
        model: "MG-ZG03W",
        vendor: "Tuya",
        description: "3 gang switch",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.switch().withEndpoint("l1").setAccess("state", ea.STATE_SET),
            e.switch().withEndpoint("l2").setAccess("state", ea.STATE_SET),
            e.switch().withEndpoint("l3").setAccess("state", ea.STATE_SET),
        ],
        meta: {
            multiEndpoint: true,
            tuyaDatapoints: [
                [1, "state_l1", tuya.valueConverter.onOff],
                [2, "state_l2", tuya.valueConverter.onOff],
                [3, "state_l3", tuya.valueConverter.onOff],
            ],
        },
        endpoint: (device) => {
            return {l1: 1, l2: 1, l3: 1};
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_oyti2ums"]),
        model: "MG-GPO04ZSLP",
        vendor: "Tuya",
        description: "2 x socket + 1 x light with master switch and metering",
        extend: [tuya.modernExtend.tuyaBase({dp: true}), m.deviceEndpoints({endpoints: {master: 1, light: 1, left: 2, right: 3}})],
        exposes: [
            e.switch().withEndpoint("master").setAccess("state", ea.STATE_SET).withDescription("Master switch controlling all relays"),
            e.switch().withEndpoint("light").setAccess("state", ea.STATE_SET).withDescription("Light relay"),
            e.switch().withEndpoint("left").setAccess("state", ea.STATE_SET).withDescription("Left socket"),
            e.switch().withEndpoint("right").setAccess("state", ea.STATE_SET).withDescription("Right socket"),
            e.numeric("voltage", ea.STATE).withUnit("V").withDescription("Line voltage reported by the outlet"),
            e.numeric("current", ea.STATE).withUnit("A").withDescription("Line current reported by the outlet"),
            e.numeric("energy_wh", ea.STATE).withUnit("Wh").withDescription("Accumulated energy (raw Wh counter)"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "state_right", tuya.valueConverter.onOff],
                [2, "state_light", tuya.valueConverter.onOff],
                [3, "state_left", tuya.valueConverter.onOff],
                [13, "state_master", tuya.valueConverter.onOff],
                [21, "current", tuya.valueConverter.divideBy1000],
                [22, "energy_wh", tuya.valueConverter.raw],
                [23, "voltage", tuya.valueConverter.divideBy10],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0215A", [
            "_TZ3000_4fsgukof",
            "_TZ3000_wr2ucaj9",
            "_TZ3000_zsh6uat3",
            "_TZ3000_tj4pwzzm",
            "_TZ3000_2izubafb",
            "_TZ3000_pkfazisv",
            "_TZ3000_0dumfk2z",
            "_TZ3000_ssp0maqm",
            "_TZ3000_p3fph1go",
            "_TZ3000_9r5jaajv",
        ]),
        model: "TS0215A_sos",
        vendor: "Tuya",
        description: "SOS button",
        fromZigbee: [fz.command_emergency, fz.battery],
        exposes: [e.battery(), e.battery_voltage(), e.action(["emergency"])],
        toZigbee: [],
        whiteLabel: [
            tuya.whitelabel("Tuya", "BT400B", "Zigbee Panic Button", ["_TZ3000_0dumfk2z"]),
            tuya.whitelabel("Woox", "R7052", "Smart SOS button", ["_TZ3000_ssp0maqm"]),
        ],
        configure: async (device, coordinatorEndpoint) => {
            const endpoint = device.getEndpoint(1);
            await reporting.bind(endpoint, coordinatorEndpoint, ["genPowerCfg", "genTime", "genBasic", "ssIasAce", "ssIasZone"]);
            await reporting.batteryPercentageRemaining(endpoint);
            await reporting.batteryVoltage(endpoint);
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0215A", [
            "_TZ3000_p6ju8myv",
            "_TZ3000_0zrccfgx",
            "_TZ3000_fsiepnrh",
            "_TZ3000_ug1vtuzn",
            "_TZ3000_eo3dttwe",
            "_TZ3000_jwcixnrz",
            "_TZ3000_u2bbagu4",
        ]),
        model: "TS0215A_remote",
        vendor: "Tuya",
        description: "Security remote control",
        fromZigbee: [fz.command_arm, fz.command_emergency, fz.battery],
        exposes: [e.battery(), e.action(["disarm", "arm_day_zones", "arm_night_zones", "arm_all_zones", "exit_delay", "emergency"])],
        toZigbee: [],
        whiteLabel: [
            {vendor: "Woox", model: "R7054"},
            {vendor: "Nedis", model: "ZBRC10WT"},
        ],
        configure: async (device, coordinatorEndpoint) => {
            const endpoint = device.getEndpoint(1);
            await reporting.bind(endpoint, coordinatorEndpoint, ["genPowerCfg", "genTime", "genBasic", "ssIasAce", "ssIasZone"]);
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0503A", ["_TZ3000_obacbukl"]),
        model: "TS0503A",
        vendor: "Tuya",
        description: "Led strip controller",
        extend: [tuya.modernExtend.tuyaLight({color: true})],
    },
    {
        zigbeeModel: ["TS0503A"],
        model: "TYZS1L",
        vendor: "Tuya",
        description: "Led strip controller HSB",
        exposes: [e.light_colorhs()],
        fromZigbee: [fz.on_off, fz.tuya_led_controller],
        toZigbee: [tz.tuya_led_controller, tz.ignore_transition, tz.ignore_rate],
    },
    {
        zigbeeModel: ["TS0502A"],
        model: "TS0502A",
        vendor: "Tuya",
        description: "Light controller",
        extend: [tuya.modernExtend.tuyaLight({colorTemp: {range: [153, 500]}})],
        whiteLabel: [
            tuya.whitelabel("Lidl", "HG06492B/HG08130B", "Livarno Home E14 candle CCT", ["_TZ3000_oborybow"]),
            tuya.whitelabel("Lidl", "HG06492A/HG08130A", "Livarno Lux GU10 spot CCT", ["_TZ3000_el5kt5im"]),
            tuya.whitelabel("Lidl", "HG06492C/HG08130C/HG09154C", "Livarno Lux E27 bulb CCT", ["_TZ3000_49qchf10"]),
            tuya.whitelabel("Lidl", "14147206L", "Livarno Lux ceiling light", ["_TZ3000_rylaozuc", "_TZ3000_5fkufhn1"]),
            tuya.whitelabel("Lidl", "14153905L", "Livarno Home LED floor lamp", ["_TZ3000_8uaoilu9"]),
        ],
        configure: (device, coordinatorEndpoint) => {
            device.getEndpoint(1).saveClusterAttributeKeyValue("lightingColorCtrl", {
                colorCapabilities: 16,
            });
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0503B", ["_TZB210_lmqquxus"]),
        zigbeeModel: ["TS0502B"],
        model: "TS0502B",
        vendor: "Tuya",
        description: "Light controller",
        whiteLabel: [
            tuya.whitelabel("Mercator Ikuü", "SMI7040", "Ford Batten Light", ["_TZ3000_zw7wr5uo"]),
            {
                vendor: "Mercator Ikuü",
                model: "SMD9300",
                description: "Donovan Panel Light",
            },
            tuya.whitelabel("Aldi", "F122SB62H22A4.5W", "LIGHTWAY smart home LED-lamp - filament", ["_TZ3000_g1glzzfk"]),
            tuya.whitelabel("MiBoxer", "FUT035Z+", "Dual white LED controller", [
                "_TZ3210_frm6149r",
                "_TZ3210_jtifm80b",
                "_TZ3210_xwqng7ol",
                "_TZB210_lmqquxus",
                "_TZB210_ue01a0s2",
            ]),
            tuya.whitelabel("MiBoxer", "E2-ZR", "2 in 1 LED controller", ["_TZB210_ayx58ft5", "_TZB210_eiwanbeb"]),
            tuya.whitelabel("MiBoxer", "PZ2", "2 in 1 LED controller", ["_TZB210_0bkzabht"]),
            tuya.whitelabel("Lidl", "14156408L", "Livarno Lux smart LED ceiling light", ["_TZ3210_c2iwpxf1"]),
            tuya.whitelabel("EcoDim", "ED-10032", "Zigbee LED filament lamp dimmable E27, bulb A60, Smokey 2000K-4000K", ["_TZ3210_09hzmirw"]),
        ],
        extend: [
            tuya.modernExtend.tuyaLight({
                colorTemp: {range: [153, 500]},
                configureReporting: true,
            }),
        ],
        configure: async (device, coordinatorEndpoint) => {
            device.getEndpoint(1).saveClusterAttributeKeyValue("lightingColorCtrl", {
                colorCapabilities: 16,
            });
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
        },
    },
    {
        zigbeeModel: ["TS0504A"],
        model: "TS0504A",
        vendor: "Tuya",
        description: "RGBW LED controller",
        extend: [
            tuya.modernExtend.tuyaLight({
                colorTemp: {range: undefined},
                color: true,
            }),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS0505A", ["_TZ3000_sosdczdl"]),
        model: "TS0505A_led",
        vendor: "Tuya",
        description: "RGB+CCT LED",
        toZigbee: [tz.on_off, tz.tuya_led_control],
        fromZigbee: [fz.on_off, fz.tuya_led_controller, fz.brightness],
        exposes: [e.light_brightness_colortemp_colorhs([153, 500]).removeFeature("color_temp_startup")],
    },
    {
        zigbeeModel: ["TS0505A"],
        model: "TS0505A",
        vendor: "Tuya",
        description: "RGB+CCT light controller",
        extend: [
            tuya.modernExtend.tuyaLight({
                colorTemp: {range: undefined},
                color: true,
            }),
        ],
        whiteLabel: [
            tuya.whitelabel("Lidl", "HG06106B", "Livarno Lux E14 candle RGB", ["_TZ3000_odygigth"]),
            tuya.whitelabel("Lidl", "HG06106A", "Livarno Lux GU10 spot RGB", ["_TZ3000_kdpxju99"]),
            tuya.whitelabel("Lidl", "HG06106C", "Livarno Lux E27 bulb RGB", ["_TZ3000_dbou1ap4"]),
            tuya.whitelabel("Lidl", "14148906L", "Livarno Lux mood light RGB+CCT", ["_TZ3000_9cpuaca6"]),
            tuya.whitelabel("Lidl", "14149505L/14149506L_1", "Livarno Lux light bar RGB+CCT (black/white)", ["_TZ3000_gek6snaj"]),
            tuya.whitelabel("Mycket", "MS-SP-LE27WRGB", "E27 RGBW bulb", ["_TZ3000_evag0pvn"]),
            tuya.whitelabel("Lidl", "HG06104A", "Livarno Home RGB+CCT LED light strip 2m", ["_TZ3000_riwp3k79", "_TZ3000_riwp3k79"]),
        ],
        configure: (device, coordinatorEndpoint) => {
            device.getEndpoint(1).saveClusterAttributeKeyValue("lightingColorCtrl", {
                colorCapabilities: 29,
            });
        },
    },
    {
        zigbeeModel: ["TS0201", "SNTZ003", "TY0201"],
        model: "TS0201",
        vendor: "Tuya",
        description: "Temperature & humidity sensor with display",
        fromZigbee: [fzLocal.TS0201_battery, fz.temperature, fzLocal.TS0201_humidity],
        toZigbee: [],
        exposes: [e.battery(), e.temperature(), e.humidity(), e.battery_voltage()],
        configure: tuya.configureMagicPacket,
        ota: true,
        whiteLabel: [
            {vendor: "BlitzWolf", model: "BW-IS4"},
            tuya.whitelabel("Tuya", "TS0201_1", "Zigbee 3.0 temperature humidity sensor with display", ["_TZ3210_alxkwn0h"]),
            tuya.whitelabel("Tuya", "ZTH01/ZTH02", "Temperature and humidity sensor", ["_TZ3000_0s1izerx"]),
            tuya.whitelabel("Tuya", "ZY-ZTH02", "Temperature and humidity sensor", ["_TZ3000_v1w2k9dd", "_TZ3000_rdhukkmi", "Zbeacon"]),
            tuya.whitelabel("SEDEA", "eTH730", "Temperature and humidity sensor", ["_TZ3000_lqmvrwa2"]),
            tuya.whitelabel("Moes", "ZSS-S01-TH", "Temperature and humidity sensor", ["_TZ3000_f2bw0b6k"]),
            tuya.whitelabel("Danfoss", "014G2480", "Temperature and humidity sensor", ["_TZ3000_mxzo5rhf"]),
            tuya.whitelabel("Tuya", "HS09", "Hanging temperature humidity sensor", ["_TZ3000_1twfmkcc"]),
            tuya.whitelabel("Nedis", "ZBSC10WT", "Temperature and humidity sensor", ["_TZ3000_fie1dpkm"]),
            tuya.whitelabel("Tuya", "TH09Z", "Temperature and humidity sensor", ["_TZ3000_isw9u95y", "_TZ3000_yupc0pb7"]),
            tuya.whitelabel("Tuya", "ZTH05_1", "Temperature and humidity sensor", ["_TZ3000_bgsigers"]),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS0201", [
            "_TZ3000_bguser20",
            "_TZ3000_yd2e749y",
            "_TZ3000_6uzkisv2",
            "_TZ3000_xr3htd96",
            "_TZ3000_fllyghyj",
            "_TZ3000_saiqcn0y",
            "_TZ3000_bjawzodf",
        ]),
        model: "WSD500A",
        vendor: "Tuya",
        description: "Temperature & humidity sensor",
        fromZigbee: [fzLocal.TS0201_battery, fz.temperature, fz.humidity],
        toZigbee: [],
        exposes: [e.battery(), e.temperature(), e.humidity(), e.battery_voltage()],
        configure: tuya.configureMagicPacket,
        whiteLabel: [tuya.whitelabel("Tuya", "TH02Z", "Temperature and humidity sensor", ["_TZ3000_fllyghyj", "_TZ3000_saiqcn0y"])],
        meta: {
            battery: {
                // These sensors do send a Battery Percentage Remaining (0x0021)
                // value, but is usually incorrect. For example, a coin battery tested
                // with a load tester may show 80%, but report 2.5V / 1%. This voltage
                // calculation matches what ZHA does by default.
                // https://github.com/Koenkk/zigbee2mqtt/discussions/17337
                // https://github.com/zigpy/zha-device-handlers/blob/c6ed94a52a469e72b32ece2a92d528060c7fd034/zhaquirks/__init__.py#L195-L228
                voltageToPercentage: "3V_1500_2800",
            },
        },
    },
    {
        fingerprint: [
            ...tuya.fingerprint("TS0201", ["_TZ3000_dowj6gyi", "_TZ3000_8ybe88nf", "_TZ3000_akqdg6g7"]),
            {manufacturerName: "_TZ3000_zl1kmjqx"},
        ],
        model: "IH-K009",
        vendor: "Tuya",
        description: "Temperature & humidity sensor",
        fromZigbee: [fzLocal.TS0201_battery, fz.temperature, fz.humidity],
        extend: [m.battery()],
        exposes: [e.temperature(), e.humidity(), e.battery_voltage()],
        configure: tuya.configureMagicPacket,
        whiteLabel: [tuya.whitelabel("Tuya", "RSH-HS06_1", "Temperature & humidity sensor", ["_TZ3000_zl1kmjqx"])],
    },
    {
        fingerprint: tuya.fingerprint("SM0201", ["_TYZB01_cbiezpds", "_TYZB01_zqvwka4k"]),
        model: "SM0201",
        vendor: "Tuya",
        description: "Temperature & humidity sensor with LED screen",
        fromZigbee: [fz.battery, fz.temperature, fz.humidity],
        toZigbee: [],
        exposes: [e.battery(), e.temperature(), e.humidity(), e.battery_voltage()],
    },
    {
        fingerprint: tuya.fingerprint("TS011F", ["_TZ3000_3zofvcaa", "_TZ3000_pvlvoxvt", "_TZ3000_lqb7lcq9", "_TZ3210_urjf5u18", "_TZ3210_8n4dn1ne"]),
        model: "TS011F_2_gang_2_usb_wall",
        vendor: "Tuya",
        description: "2 gang 2 usb wall outlet",
        extend: [
            tuya.modernExtend.tuyaOnOff({
                backlightModeLowMediumHigh: true,
                endpoints: ["l1", "l2", "l3", "l4"],
                childLock: true,
            }),
        ],
        endpoint: () => {
            return {l1: 1, l2: 2, l3: 3, l4: 4};
        },
        meta: {multiEndpoint: true},
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            for (const endpointID of [1, 2, 3, 4]) {
                const endpoint = device.getEndpoint(endpointID);
                await reporting.bind(endpoint, coordinatorEndpoint, ["genOnOff"]);
                await reporting.onOff(endpoint);
            }
        },
        whiteLabel: [
            tuya.whitelabel("Nova Digital", "NTS2-W-B", "2 gang 2 usb wall outlet 4x2", ["_TZ3000_lqb7lcq9"]),
            tuya.whitelabel("AVATTO", "ZWOT12", "2 gang 2 usb wall outlet 4x2", ["_TZ3210_urjf5u18"]),
            tuya.whitelabel("Coibeu", "ZB414", "2 gang 2 usb wall outlet 4x2", ["_TZ3210_8n4dn1ne"]),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS011F", ["_TZ3000_bep7ccew", "_TZ3000_gazjngjl"]),
        model: "TS011F_2_gang_power",
        vendor: "Tuya",
        description: "2 gang socket with power monitoring and USB",
        extend: [
            tuyaMagicPacket(),
            m.deviceEndpoints({
                endpoints: {left: 1, right: 2},
                multiEndpointSkip: ["current", "voltage", "power", "energy"],
            }),
            m.onOff({powerOnBehavior: false, endpointNames: ["left", "right"]}),
            m.identify(),
            m.electricityMeter(),
        ],
    },
    {
        zigbeeModel: ["TS0041"],
        model: "TS0041",
        vendor: "Tuya",
        description: "Wireless switch with 1 button",
        whiteLabel: [
            {vendor: "Smart9", model: "S9TSZGB"},
            {vendor: "Lonsonho", model: "TS0041"},
            {vendor: "Benexmart", model: "ZM-sui1"},
            tuya.whitelabel("Tuya", "SH-SC07", "Button scene switch", ["_TZ3000_mrpevh8p", "_TZ3000_5bpeda8u"]),
            tuya.whitelabel("Tuya", "MINI-ZSB", "Smart button", ["_TZ3000_qgwcxxws"]),
            tuya.whitelabel("Nous", "LZ4", "Wireless switch button", ["_TZ3000_6km7djcm"]),
            tuya.whitelabel("Marmitek", "Push_LE", "Smart switch", ["_TZ3000_4upl1fcj"]),
        ],
        exposes: [e.battery(), e.action(["single", "double", "hold"])],
        fromZigbee: [tuya.fz.on_off_action, fz.battery],
        toZigbee: [],
        configure: tuya.configureMagicPacket,
        /*
         * reporting.batteryPercentageRemaining removed as it was causing devices to fall of the network
         * every 1 hour, with light flashing when it happened, extremely short battery life, 2 presses for
         * action to register: https://github.com/Koenkk/zigbee2mqtt/issues/8072
         * Initially wrapped in a try catch: https://github.com/Koenkk/zigbee2mqtt/issues/6313
         */
    },
    {
        zigbeeModel: ["TS0041A"],
        model: "TS0041A",
        vendor: "Tuya",
        description: "Wireless switch with 1 button",
        whiteLabel: [
            tuya.whitelabel("Cleverio", "SB100", "Wireless switch with 1 button", ["_TYZB01_4qw4rl1u"]),
            tuya.whitelabel("Marmitek", "Push_ME", "Wireless switch with 1 button", ["_TYZB01_1xktopx6"]),
        ],
        exposes: [e.battery(), e.battery_voltage(), e.action(["single", "double", "hold"])],
        fromZigbee: [tuya.fz.on_off_action, fz.battery],
        toZigbee: [],
        configure: tuya.configureMagicPacket,
        /*
         * reporting.batteryPercentageRemaining removed as it was causing devices to fall of the network
         * every 1 hour, with light flashing when it happened, extremely short battery life, 2 presses for
         * action to register: https://github.com/Koenkk/zigbee2mqtt/issues/8072
         * Initially wrapped in a try catch: https://github.com/Koenkk/zigbee2mqtt/issues/6313
         */
    },
    {
        zigbeeModel: ["TS0042"],
        model: "TS0042",
        vendor: "Tuya",
        description: "Wireless switch with 2 buttons",
        whiteLabel: [
            {vendor: "Smart9", model: "S9TSZGB"},
            {vendor: "Lonsonho", model: "TS0042"},
            {vendor: "ClickSmart+", model: "CSPGM2075PW"},
            tuya.whitelabel("Marmitek", "Push_LO", "Smart switch", ["_TZ3000_dfgbtub0"]),
        ],
        exposes: [e.battery(), e.action(["1_single", "1_double", "1_hold", "2_single", "2_double", "2_hold"])],
        fromZigbee: [tuya.fz.on_off_action, fz.battery],
        toZigbee: [],
        configure: tuya.configureMagicPacket,
        /*
         * reporting.batteryPercentageRemaining removed as it was causing devices to fall of the network
         * every 1 hour, with light flashing when it happened, extremely short battery life, 2 presses for
         * action to register: https://github.com/Koenkk/zigbee2mqtt/issues/8072
         * Initially wrapped in a try catch: https://github.com/Koenkk/zigbee2mqtt/issues/6313
         */
    },
    {
        zigbeeModel: ["TS0043"],
        model: "TS0043",
        vendor: "Tuya",
        description: "Wireless switch with 3 buttons",
        whiteLabel: [
            {vendor: "Smart9", model: "S9TSZGB"},
            {vendor: "Lonsonho", model: "TS0043"},
            {vendor: "LoraTap", model: "SS600ZB"},
        ],
        exposes: [e.battery(), e.action(["1_single", "1_double", "1_hold", "2_single", "2_double", "2_hold", "3_single", "3_double", "3_hold"])],
        fromZigbee: [tuya.fz.on_off_action, fz.battery],
        toZigbee: [],
        configure: tuya.configureMagicPacket,
        /*
         * reporting.batteryPercentageRemaining removed as it was causing devices to fall of the network
         * every 1 hour, with light flashing when it happened, extremely short battery life, 2 presses for
         * action to register: https://github.com/Koenkk/zigbee2mqtt/issues/8072
         * Initially wrapped in a try catch: https://github.com/Koenkk/zigbee2mqtt/issues/6313
         */
    },
    {
        zigbeeModel: ["TS0044"],
        model: "TS0044",
        vendor: "Tuya",
        description: "Wireless switch with 4 buttons",
        whiteLabel: [
            {vendor: "Lonsonho", model: "TS0044"},
            {vendor: "Haozee", model: "ESW-OZAA-EU"},
            {vendor: "Moes", model: "ZT-SY-EU-G-4S-WH-MS"},
            {vendor: "Nedis", model: "ZBWS40WT"},
            tuya.whitelabel("Moes", "ZT-SR-EU4", "Star Ring 4 Gang Scene Switch", ["_TZ3000_a4xycprs"]),
            tuya.whitelabel("Tuya", "TS0044_1", "Zigbee 4 button remote - 12 scene", ["_TZ3000_dziaict4", "_TZ3000_j61x9rxn"]),
            tuya.whitelabel("iHseno", "_TZ3000_mh9px7cq", "Zigbee 4 button remote - 12 scene", ["_TZ3000_mh9px7cq"]),
            tuya.whitelabel("iHseno", "TS0044_5tqxpine", "Zigbee 4 button wall switch", ["_TZ3000_5tqxpine"]),
            tuya.whitelabel("Tuya", "TM-YKQ004", "Zigbee 4 button remote - 12 scene", ["_TZ3000_u3nv1jwk"]),
            tuya.whitelabel("HOBEIAN", "ZG-101ZS", "Star Ring 4 Gang Scene Switch", ["_TZ3000_bgtzm4ny"]),
            tuya.whitelabel("Moes", "XH-SY-04Z", "4 button portable remote control", ["_TZ3000_kfu8zapd"]),
            tuya.whitelabel("LoraTap", "SS6400ZB", "4 button portable remote control", ["_TZ3000_ee8nrt2l"]),
        ],
        fromZigbee: [tuya.fz.on_off_action, fz.battery],
        exposes: [
            e.battery(),
            e.action([
                "1_single",
                "1_double",
                "1_hold",
                "2_single",
                "2_double",
                "2_hold",
                "3_single",
                "3_double",
                "3_hold",
                "4_single",
                "4_double",
                "4_hold",
            ]),
        ],
        toZigbee: [],
        configure: tuya.configureMagicPacket,
        /*
         * reporting.batteryPercentageRemaining removed as it was causing devices to fall of the network
         * every 1 hour, with light flashing when it happened, extremely short battery life, 2 presses for
         * action to register: https://github.com/Koenkk/zigbee2mqtt/issues/8072
         * Initially wrapped in a try catch: https://github.com/Koenkk/zigbee2mqtt/issues/6313
         */
    },
    {
        fingerprint: tuya.fingerprint("TS004F", [
            "_TZ3000_nuombroo",
            "_TZ3000_xabckq1v",
            "_TZ3000_czuyt8lz",
            "_TZ3000_0ht8dnxj",
            "_TZ3000_b3mgfu0d",
            "_TZ3000_11pg3ima",
            "_TZ3000_et7afzxz",
        ]),
        model: "TS004F",
        vendor: "Tuya",
        description: "Wireless switch with 4 buttons",
        exposes: [
            e.battery(),
            e
                .enum("operation_mode", ea.ALL, ["command", "event"])
                .withDescription('Operation mode: "command" - for group control, "event" - for clicks'),
            e.action([
                "on",
                "off",
                "brightness_step_up",
                "brightness_step_down",
                "brightness_move_up",
                "brightness_move_down",
                "color_temperature_step_up",
                "color_temperature_step_down",
                "brightness_stop",
                "1_single",
                "1_double",
                "1_hold",
                "2_single",
                "2_double",
                "2_hold",
                "3_single",
                "3_double",
                "3_hold",
                "4_single",
                "4_double",
                "4_hold",
            ]),
        ],
        fromZigbee: [
            fz.battery,
            tuya.fz.on_off_action,
            fz.tuya_operation_mode,
            fz.command_on,
            fz.command_off,
            fz.command_step,
            fz.command_move,
            fz.command_stop,
            fz.command_step_color_temperature,
        ],
        whiteLabel: [tuya.whitelabel("Zemismart", "ZMR4", "Wireless switch with 4 buttons", ["_TZ3000_11pg3ima", "_TZ3000_et7afzxz"])],
        toZigbee: [tz.tuya_operation_mode],
        configure: async (device, coordinatorEndpoint) => {
            const endpoint = device.getEndpoint(1);
            await endpoint.read("genBasic", [0x0004, 0x000, 0x0001, 0x0005, 0x0007, 0xfffe]);
            await endpoint.write("genOnOff", {tuyaOperationMode: 1});
            await endpoint.read("genOnOff", ["tuyaOperationMode"]);
            try {
                await endpoint.read(0xe001, [0xd011]);
            } catch {
                /* do nothing */
            }
            await endpoint.read("genPowerCfg", ["batteryVoltage", "batteryPercentageRemaining"]);
            await reporting.bind(endpoint, coordinatorEndpoint, ["genPowerCfg"]);
            for (const ep of [1, 2, 3, 4]) {
                // Not all variants have all endpoints
                // https://github.com/Koenkk/zigbee2mqtt/issues/15730#issuecomment-1364498358
                if (device.getEndpoint(ep)) {
                    await reporting.bind(device.getEndpoint(ep), coordinatorEndpoint, ["genOnOff"]);
                }
            }
            await reporting.batteryPercentageRemaining(endpoint);
        },
    },
    {
        fingerprint: tuya.fingerprint("TS004F", ["_TZ3000_r0o2dahu"]),
        model: "TS004F_6_button",
        vendor: "Tuya",
        description: "Wireless switch with 6 buttons",
        exposes: [
            e.battery(),
            e
                .enum("operation_mode", ea.ALL, ["command", "event"])
                .withDescription('Operation mode: "command" - for group control, "event" - for clicks'),
            e.action([
                "on",
                "off",
                "brightness_step_up",
                "brightness_step_down",
                "brightness_move_up",
                "brightness_move_down",
                "1_single",
                "1_double",
                "1_hold",
                "2_single",
                "2_double",
                "2_hold",
                "3_single",
                "3_double",
                "3_hold",
                "4_single",
                "4_double",
                "4_hold",
                "5_single",
                "5_double",
                "5_hold",
                "6_single",
                "6_double",
                "6_hold",
            ]),
        ],
        fromZigbee: [fz.battery, tuya.fz.on_off_action, fz.tuya_operation_mode, fz.command_on, fz.command_off, fz.command_step, fz.command_move],
        toZigbee: [tz.tuya_operation_mode],
        configure: async (device, coordinatorEndpoint) => {
            const endpoint = device.getEndpoint(1);
            await endpoint.read("genBasic", [0x0004, 0x000, 0x0001, 0x0005, 0x0007, 0xfffe]);
            await endpoint.write("genOnOff", {tuyaOperationMode: 1});
            await endpoint.read("genOnOff", ["tuyaOperationMode"]);
            try {
                await endpoint.read(0xe001, [0xd011]);
            } catch {
                /* do nothing */
            }
            await endpoint.read("genPowerCfg", ["batteryVoltage", "batteryPercentageRemaining"]);
            await reporting.bind(endpoint, coordinatorEndpoint, ["genPowerCfg"]);
            for (const ep of [1, 2, 3, 4, 5, 6]) {
                // Not all variants have all endpoints
                // https://github.com/Koenkk/zigbee2mqtt/issues/15730#issuecomment-1364498358
                if (device.getEndpoint(ep)) {
                    await reporting.bind(device.getEndpoint(ep), coordinatorEndpoint, ["genOnOff"]);
                }
            }
            await reporting.batteryPercentageRemaining(endpoint);
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_dzuqwsyg", "_TZE204_dzuqwsyg"]),
        model: "BAC-003",
        vendor: "Tuya",
        description: "FCU thermostat temperature controller",
        extend: [tuya.modernExtend.tuyaBase({dp: true, forceTimeUpdates: true, timeStart: "1970"})],
        options: [
            e
                .enum("control_sequence_of_operation", ea.SET, ["cooling_only", "cooling_and_heating_4-pipes"])
                .withDescription("Operating environment of the thermostat"),
            e.binary("expose_device_state", ea.SET, true, false).withDescription("Expose device power state as a separate property when enabled."),
        ],
        exposes: (device, options) => {
            const system_modes = ["off", "cool", "heat", "fan_only"];

            // Device can operate either in 2-pipe or 4-pipe configuration
            // For 2-pipe configurations remove 'heat' mode
            switch (options?.control_sequence_of_operation) {
                case "cooling_only":
                    system_modes.splice(2, 1);
                    break;
            }

            const exposes = [
                e
                    .climate()
                    .withLocalTemperature(ea.STATE)
                    .withSystemMode(system_modes, ea.STATE_SET)
                    .withFanMode(["low", "medium", "high", "auto"], ea.STATE_SET)
                    .withSetpoint("current_heating_setpoint", 5, 35, 1, ea.STATE_SET)
                    .withPreset(["auto", "manual"])
                    .withLocalTemperatureCalibration(-3, 3, 1, ea.STATE_SET),
                e.child_lock(),
                e
                    .composite("schedule", "schedule", ea.STATE_SET)
                    .withFeature(e.text("weekdays", ea.SET).withDescription('Schedule (1-5), 4 periods in format "hh:mm/tt".'))
                    .withFeature(e.text("saturday", ea.SET).withDescription('Schedule (6), 4 periods in format "hh:mm/tt".'))
                    .withFeature(e.text("sunday", ea.SET).withDescription('Schedule (7), 4 periods in format "hh:mm/tt".'))
                    .withDescription('Auto-mode schedule, 4 periods each per category. Example: "06:00/20 11:30/21 13:30/22 17:30/23.5".'),
                e.max_temperature().withValueMin(35).withValueMax(45).withPreset("default", 35, "Default value"),
                e
                    .numeric("deadzone_temperature", ea.STATE_SET)
                    .withUnit("°C")
                    .withValueMax(5)
                    .withValueMin(1)
                    .withValueStep(1)
                    .withPreset("default", 1, "Default value")
                    .withDescription("The delta between local_temperature and current_heating_setpoint to trigger activity"),
            ];

            if (options?.expose_device_state === true) {
                exposes.unshift(e.binary("state", ea.STATE_SET, "ON", "OFF").withDescription("Turn the thermostat ON or OFF"));
            }

            return exposes;
        },
        meta: {
            publishDuplicateTransaction: true,
            tuyaDatapoints: [
                [
                    1,
                    "state",
                    {
                        to: async (v: string, meta: Tz.Meta) => {
                            if (meta.options?.expose_device_state === true) {
                                await tuya.sendDataPointBool(
                                    meta.device.endpoints[0],
                                    1,
                                    utils.getFromLookup(v, {on: true, off: false}),
                                    "dataRequest",
                                    1,
                                );
                            }
                        },
                        from: (v: boolean, meta: Fz.Meta, options?: KeyValue) => {
                            meta.state.system_mode = v === true ? (meta.state.system_mode_device ?? "cool") : "off";

                            if (options?.expose_device_state === true) {
                                return v === true ? "ON" : "OFF";
                            }

                            delete meta.state.state;
                        },
                    },
                ],
                [
                    2,
                    "system_mode",
                    {
                        // Extend system_mode to support 'off' in addition to 'cool', 'heat' and 'fan_only'
                        to: async (v: string, meta: Tz.Meta) => {
                            const entity = meta.device.endpoints[0];
                            // Power State
                            await tuya.sendDataPointBool(entity, 1, v !== "off", "dataRequest", 1);
                            switch (v) {
                                case "cool":
                                    await tuya.sendDataPointEnum(entity, 2, 0, "dataRequest", 1);
                                    break;
                                case "heat":
                                    await tuya.sendDataPointEnum(entity, 2, 1, "dataRequest", 1);
                                    break;
                                case "fan_only":
                                    await tuya.sendDataPointEnum(entity, 2, 2, "dataRequest", 1);
                                    break;
                            }
                        },
                        from: (v: number, meta: Fz.Meta) => {
                            const modes = ["cool", "heat", "fan_only"];
                            meta.state.system_mode_device = modes[v];
                            return modes[v];
                        },
                    },
                ],
                [4, "preset", tuya.valueConverterBasic.lookup({manual: true, auto: false})],
                [16, "current_heating_setpoint", tuya.valueConverter.raw],
                [19, "max_temperature", tuya.valueConverter.raw],
                [24, "local_temperature", tuya.valueConverter.divideBy10],
                [26, "deadzone_temperature", tuya.valueConverter.raw],
                [27, "local_temperature_calibration", tuya.valueConverter.localTemperatureCalibration],
                [
                    28,
                    "fan_mode",
                    tuya.valueConverterBasic.lookup({
                        low: tuya.enum(0),
                        medium: tuya.enum(1),
                        high: tuya.enum(2),
                        auto: tuya.enum(3),
                    }),
                ],
                [40, "child_lock", tuya.valueConverter.lockUnlock],
                [
                    101,
                    "schedule",
                    {
                        to: (v: {weekdays: string; saturday: string; sunday: string}, meta: Tz.Meta) => {
                            const periods = (value: string) => {
                                const regex = /((?<h>[01][0-9]|2[0-3]):(?<m>[0-5][0-9])\/(?<t>[0-3][0-9](\.[0,5]|)))/gm;
                                const matches = [...value.matchAll(regex)];

                                if (matches.length === 4) {
                                    return matches.reduce((arr, m) => {
                                        arr.push(Number.parseInt(m.groups.h, 10));
                                        arr.push(Number.parseInt(m.groups.m, 10));
                                        arr.push(Number.parseFloat(m.groups.t) * 2);
                                        return arr;
                                    }, []);
                                }

                                logger.warning("Ignoring invalid or incomplete schedule", NS);
                            };

                            const schedule = [...periods(v.weekdays), ...periods(v.saturday), ...periods(v.sunday)];

                            return schedule;
                        },
                        from: (v: number[], meta: Fz.Meta) => {
                            const format = (data: number[]) => {
                                return data.reduce((a, v, i) => {
                                    switch (i % 3) {
                                        // Hour
                                        case 0:
                                            return `${a}${i > 0 ? " " : ""}${v.toString().padStart(2, "0")}`;
                                        // Minute
                                        case 1:
                                            return `${a}:${v.toString().padStart(2, "0")}`;
                                        // Setpoint
                                        case 2:
                                            return `${a}/${v / 2}`;
                                        default:
                                            throw new Error(`Unexpected index ${i} in schedule data`);
                                    }
                                }, "");
                            };

                            return {
                                weekdays: format(v.slice(0, 12)),
                                saturday: format(v.slice(1 * 12, 2 * 12)),
                                sunday: format(v.slice(2 * 12, 3 * 12)),
                            };
                        },
                    },
                ],
            ],
        },
        whiteLabel: [tuya.whitelabel("Tuya", "BAC-002-ALZB", "FCU thermostat temperature controller", ["_TZE200_dzuqwsyg"])],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_qq9mpfhw"]),
        model: "TS0601_water_sensor",
        vendor: "Tuya",
        description: "Water leak sensor",
        fromZigbee: [legacy.fromZigbee.tuya_water_leak],
        exposes: [e.water_leak()],
        toZigbee: [],
        whiteLabel: [{vendor: "NEO", model: "NAS-WS02B0"}],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_jthf7vb6"]),
        model: "WLS-100z",
        vendor: "Tuya",
        description: "Water leak sensor",
        fromZigbee: [fz.ignore_tuya_raw, legacy.fromZigbee.wls100z_water_leak],
        extend: [tuya.modernExtend.tuyaBase({bindBasicOnConfigure: true})],
        exposes: [e.battery(), e.water_leak()],
    },
    {
        fingerprint: tuya.fingerprint("TS0001", [
            "_TZ3000_xkap8wtb",
            "_TZ3000_qnejhcsu",
            "_TZ3000_x3ewpzyr",
            "_TZ3000_mkhkxx1p",
            "_TZ3000_tgddllx4",
            "_TZ3000_kqvb5akv",
            "_TZ3000_q8r0bbvy",
            "_TZ3000_g92baclx",
            "_TZ3000_qlai3277",
            "_TZ3000_qaabwu5c",
            "_TZ3000_qorepo2x",
            "_TZ3000_ikuxinvo",
            "_TZ3000_hzlsaltw",
            "_TZ3000_jsfzkftc",
            "_TZ3000_0ghwhypc",
            "_TZ3000_1adss9de",
            "_TZ3000_x8mbwtsz",
        ]),
        model: "TS0001_power",
        description: "Switch with power monitoring",
        vendor: "Tuya",
        ota: true,
        fromZigbee: [fz.on_off, fz.electrical_measurement, fz.metering, tuya.fz.power_outage_memory, tuya.fz.switch_type],
        toZigbee: [tz.on_off, tuya.tz.power_on_behavior_1, tuya.tz.switch_type],
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            const endpoint = device.getEndpoint(1);
            /*
            https://github.com/Koenkk/zigbee2mqtt/issues/27090
            INVALID_DATA_TYPE error for _TZ3000_xkap8wtb, appVersion:162 softwareBuildID: 0122052017
            */
            if ("_TZ3000_xkap8wtb" === device.manufacturerName && [162, 100].includes(device.applicationVersion)) {
                logger.warning(
                    "Detected TS0001 _TZ3000_xkap8wtb switch with appVersion 100 or 162. Skip reporting for haElectricalMeasurement and seMeteringreporting in favor of polling.",
                    NS,
                );
                await reporting.bind(endpoint, coordinatorEndpoint, ["genOnOff"]);
            } else {
                await reporting.bind(endpoint, coordinatorEndpoint, ["genOnOff", "haElectricalMeasurement", "seMetering"]);
                await reporting.rmsVoltage(endpoint, {change: 5});
                await reporting.rmsCurrent(endpoint, {change: 50});
                await reporting.activePower(endpoint, {change: 10});
                await reporting.currentSummDelivered(endpoint);
            }
            endpoint.saveClusterAttributeKeyValue("haElectricalMeasurement", {
                acCurrentDivisor: 1000,
                acCurrentMultiplier: 1,
            });
            endpoint.saveClusterAttributeKeyValue("seMetering", {
                divisor: 100,
                multiplier: 1,
            });
            device.save();
        },
        exposes: [
            e.switch(),
            e.power(),
            e.current(),
            e.voltage(),
            e.energy(),
            tuya.exposes.switchType(),
            e.enum("power_outage_memory", ea.ALL, ["on", "off", "restore"]).withDescription("Recover state after power outage"),
        ],
        whiteLabel: [
            tuya.whitelabel("Nous", "B2Z", "1 gang switch with power monitoring", ["_TZ3000_qlai3277"]),
            tuya.whitelabel("Colorock", "CR-MNZ1", "1 gang switch 30A with power monitoring", ["_TZ3000_tgddllx4"]),
            tuya.whitelabel("Nous", "L6Z", "Switch with power monitoring", ["_TZ3000_qaabwu5c", "_TZ3000_1adss9de"]),
            tuya.whitelabel("Tuya", "XSH01A", "1 gang switch", ["_TZ3000_x3ewpzyr"]),
            tuya.whitelabel("Moes", "ZM-104-M-16AM", "1 gang switch with power monitoring", ["_TZ3000_x8mbwtsz"]),
        ],
        extend: [
            tuya.modernExtend.electricityMeasurementPoll({
                electricalMeasurement: (device) =>
                    (device.manufacturerName === "_TZ3000_x3ewpzyr" && [162, 100].includes(device.applicationVersion)) ||
                    (device.manufacturerName === "_TZ3000_xkap8wtb" && [162, 100].includes(device.applicationVersion)),
                metering: (device) =>
                    (device.manufacturerName === "_TZ3000_x3ewpzyr" && [162, 100].includes(device.applicationVersion)) ||
                    (device.manufacturerName === "_TZ3000_xkap8wtb" && [162, 100].includes(device.applicationVersion)),
            }),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS0002", ["_TZ3000_aaifmpuq", "_TZ3000_irrmjcgi", "_TZ3000_huvxrx4i"]),
        model: "TS0002_power",
        vendor: "Tuya",
        description: "2 gang switch with power monitoring",
        extend: [
            tuya.modernExtend.tuyaOnOff({
                switchType: true,
                endpoints: ["l1", "l2"],
                electricalMeasurements: true,
            }),
        ],
        endpoint: (device) => {
            return {l1: 1, l2: 2};
        },
        meta: {
            multiEndpoint: true,
            multiEndpointSkip: ["energy", "current", "voltage", "power"],
        },
        configure: async (device, coordinatorEndpoint) => {
            const endpoint = device.getEndpoint(1);
            await endpoint.read("genBasic", ["manufacturerName", "zclVersion", "appVersion", "modelId", "powerSource", 0xfffe]);
            await reporting.bind(endpoint, coordinatorEndpoint, ["genOnOff", "haElectricalMeasurement", "seMetering"]);
            await reporting.rmsVoltage(endpoint, {change: 5});
            await reporting.rmsCurrent(endpoint, {change: 50});
            await reporting.activePower(endpoint, {change: 10});
            await reporting.currentSummDelivered(endpoint);
            endpoint.saveClusterAttributeKeyValue("haElectricalMeasurement", {
                acCurrentDivisor: 1000,
                acCurrentMultiplier: 1,
            });
            endpoint.saveClusterAttributeKeyValue("seMetering", {
                divisor: 100,
                multiplier: 1,
            });
            device.save();
            await reporting.bind(device.getEndpoint(2), coordinatorEndpoint, ["genOnOff"]);
        },
        whiteLabel: [
            tuya.whitelabel("Tuya", "XSH01B", "2 gang switch module with power monitoring", ["_TZ3000_irrmjcgi"]),
            tuya.whitelabel("Nous", "B3Z", "2 gang switch module with power monitoring", ["_TZ3000_aaifmpuq"]),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS000F", ["_TZ3000_xkap8wtb"]),
        model: "TS000F_power",
        description: "Switch with power monitoring",
        vendor: "Tuya",
        fromZigbee: [fz.on_off, fz.electrical_measurement, fz.metering, tuya.fz.power_on_behavior_1, tuya.fz.switch_type],
        toZigbee: [tz.on_off, tuya.tz.power_on_behavior_1, tuya.tz.switch_type],
        configure: async (device, coordinatorEndpoint) => {
            const endpoint = device.getEndpoint(1);
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            await reporting.bind(endpoint, coordinatorEndpoint, ["genOnOff", "haElectricalMeasurement", "seMetering"]);
            await reporting.rmsVoltage(endpoint, {change: 5});
            await reporting.rmsCurrent(endpoint, {change: 50});
            await reporting.currentSummDelivered(endpoint);
            endpoint.saveClusterAttributeKeyValue("haElectricalMeasurement", {
                acCurrentDivisor: 1000,
                acCurrentMultiplier: 1,
            });
            endpoint.saveClusterAttributeKeyValue("seMetering", {
                divisor: 100,
                multiplier: 1,
            });
            device.save();
        },
        whiteLabel: [{vendor: "Aubess", model: "WHD02"}],
        exposes: [e.switch(), e.power(), e.current(), e.voltage(), e.energy(), e.power_on_behavior(), tuya.exposes.switchType()],
    },
    {
        zigbeeModel: ["TS0001"],
        model: "TS0001",
        vendor: "Tuya",
        description: "1 gang switch",
        extend: [tuya.modernExtend.tuyaOnOff()],
        whiteLabel: [
            {
                vendor: "CR Smart Home",
                model: "TS0001",
                description: "Valve control",
            },
            {vendor: "Lonsonho", model: "X701"},
            {vendor: "Bandi", model: "BDS03G1"},
            tuya.whitelabel("Nous", "B1Z", "1 gang switch", ["_TZ3000_ctftgjwb"]),
            tuya.whitelabel("Tuya", "XMSJ", "Zigbee USB power switch", ["_TZ3000_8n7lqbm0"]),
            tuya.whitelabel("Tuya", "ZG-001", "Smart home relay module", ["_TZ3000_g8n1n7lg"]),
            tuya.whitelabel("Nova Digital", "SA-1", "Safira smart light switch - 1 gang", ["_TZ3000_udl7uyd2"]),
        ],
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            await reporting.bind(device.getEndpoint(1), coordinatorEndpoint, ["genOnOff"]);
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0001", ["_TZ3000_myaaknbq", "_TZ3000_cpozgbrx", "_TZ3000_drc9tuqb"]),
        model: "TS0001_switch_module_1",
        vendor: "Tuya",
        description: "1 gang switch module",
        extend: [
            tuya.modernExtend.tuyaOnOff({
                indicatorMode: true,
                backlightModeOffOn: true,
                onOffCountdown: true,
            }),
        ],
        whiteLabel: [
            tuya.whitelabel("PSMART", "T441", "1 gang switch module", ["_TZ3000_myaaknbq"]),
            tuya.whitelabel("PSMART", "T461", "1 gang switch module", ["_TZ3000_cpozgbrx"]),
            tuya.whitelabel("Mercator Ikuü", "SSWM10-ZB", "1 gang switch module", ["_TZ3000_drc9tuqb"]),
        ],
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            await reporting.bind(device.getEndpoint(1), coordinatorEndpoint, ["genOnOff"]);
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0001", ["_TZ3000_gbshwgag"]),
        model: "TS0001_switch_module_2",
        vendor: "Tuya",
        description: "1 gang switch with backlight",
        extend: [
            tuya.modernExtend.tuyaOnOff({
                powerOnBehavior2: true,
                backlightModeOffOn: true,
                indicatorMode: true,
            }),
        ],
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            await reporting.bind(device.getEndpoint(1), coordinatorEndpoint, ["genOnOff"]);
        },
    },

    ////////////////////////
    // TS0002 DEFINITIONS //
    ////////////////////////

    {
        // TS0002 model with only on/off capability
        fingerprint: tuya.fingerprint("TS0002", [
            "_TZ3000_01gpyda5",
            "_TZ3000_bvrlqyj7",
            "_TZ3000_7ed9cqgi",
            "_TZ3000_zmy4lslw",
            "_TZ3000_ruxexjfz",
            "_TZ3000_4xfqlgqo",
            "_TZ3000_hojntt34",
            "_TZ3000_eei0ubpy",
            "_TZ3000_qaa59zqd",
            "_TZ3000_lmlsduws",
            "_TZ3000_lugaswf8",
            "_TZ3000_nuenzetq",
            "_TZ3000_ruldv5dt",
            "_TZ3000_fbjdkph9",
            "_TZ3000_zbfya6h0",
        ]),
        model: "TS0002_basic",
        vendor: "Tuya",
        description: "2 gang switch module",
        whiteLabel: [
            {vendor: "OXT", model: "SWTZ22"},
            tuya.whitelabel("Moes", "ZM-104B-M", "2 gang switch", ["_TZ3000_qaa59zqd"]),
            tuya.whitelabel("pcblab.io", "RR620ZB", "2 gang Zigbee switch module", ["_TZ3000_4xfqlgqo"]),
            tuya.whitelabel("Nous", "L13Z", "2 gang switch", ["_TZ3000_ruxexjfz", "_TZ3000_hojntt34"]),
            tuya.whitelabel("Tuya", "ZG-2002-RF", "Three mode Zigbee Switch", ["_TZ3000_lugaswf8", "_TZ3000_nuenzetq", "_TZ3000_ruldv5dt"]),
            tuya.whitelabel("Mercator Ikuü", "SSW02", "2 gang switch", ["_TZ3000_fbjdkph9"]),
            tuya.whitelabel("Aubess", "TMZ02", "2 gang switch", ["_TZ3000_lmlsduws"]),
            tuya.whitelabel("RSH", "TS0002_basic_2", "2 gang switch", ["_TZ3000_zbfya6h0"]),
        ],
        extend: [
            tuya.modernExtend.tuyaOnOff({
                switchType: true,
                endpoints: ["l1", "l2"],
                powerOutageMemory: (manufacturerName) => manufacturerName !== "_TZ3000_qaa59zqd",
            }),
        ],
        endpoint: (device) => {
            return {l1: 1, l2: 2};
        },
        meta: {multiEndpoint: true},
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            await reporting.bind(device.getEndpoint(1), coordinatorEndpoint, ["genOnOff"]);
            await reporting.bind(device.getEndpoint(2), coordinatorEndpoint, ["genOnOff"]);
        },
    },
    {
        // TS0002 model with limited functionality available
        fingerprint: tuya.fingerprint("TS0002", [
            "_TZ3000_fisb3ajo",
            "_TZ3000_5gey1ohx",
            "_TZ3000_mtnpt6ws",
            "_TZ3000_mufwv0ry",
            "_TZ3000_54hjn4vs",
            "_TZ3000_aa5t61rh",
            "_TZ3000_in5qxhtt",
            "_TZ3000_ogpla3lh",
            "_TZ3000_i9w5mehz",
        ]),
        model: "TS0002_limited",
        vendor: "Tuya",
        description: "2 gang switch module",
        extend: [
            tuya.modernExtend.tuyaOnOff({
                switchType: true,
                onOffCountdown: true,
                indicatorMode: true,
                backlightModeOffOn: true,
                endpoints: ["l1", "l2"],
            }),
        ],
        endpoint: (device) => {
            return {l1: 1, l2: 2};
        },
        meta: {multiEndpoint: true},
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            await reporting.bind(device.getEndpoint(1), coordinatorEndpoint, ["genOnOff"]);
            await reporting.bind(device.getEndpoint(2), coordinatorEndpoint, ["genOnOff"]);
        },
        whiteLabel: [
            tuya.whitelabel("AVATTO", "ZWSM16-2-Zigbee", "2 gang switch module", ["_TZ3000_mtnpt6ws"]),
            tuya.whitelabel("PSMART", "T442", "2 gang switch module", ["_TZ3000_mufwv0ry"]),
            tuya.whitelabel("Lonsonho", "X702A", "2 gang switch with backlight", ["_TZ3000_54hjn4vs", "_TZ3000_aa5t61rh"]),
            tuya.whitelabel("Homeetec", "37022463-1", "2 Gang switch with backlight", ["_TZ3000_in5qxhtt"]),
            tuya.whitelabel("RoomsAI", "37022463-2", "2 Gang switch with backlight", ["_TZ3000_ogpla3lh"]),
        ],
    },
    {
        // TS0002 2 gang switch module with all available features. This is the default for TS0002 devices.
        model: "TS0002",
        zigbeeModel: ["TS0002"],
        vendor: "Tuya",
        description: "2-Gang switch with backlight, countdown and inching",
        extend: [
            tuya.modernExtend.tuyaOnOff({
                switchType: true,
                powerOnBehavior2: true,
                backlightModeOffOn: true,
                indicatorMode: true,
                onOffCountdown: true,
                inchingSwitch: true,
                endpoints: ["l1", "l2"],
            }),
            tuya.clusters.addTuyaCommonPrivateCluster(),
        ],
        endpoint: (device) => {
            return {l1: 1, l2: 2};
        },
        meta: {multiEndpoint: true},
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            await reporting.bind(device.getEndpoint(1), coordinatorEndpoint, ["genOnOff"]);
            await reporting.bind(device.getEndpoint(2), coordinatorEndpoint, ["genOnOff"]);
        },
        whiteLabel: [
            tuya.whitelabel("Zemismart", "TB26-2", "2 Gang switch with backlight, countdown, inching", ["_TZ3000_ywubfuvt"]),
            {vendor: "Zemismart", model: "ZM-CSW002-D_switch"},
            {vendor: "Lonsonho", model: "X702"},
            {vendor: "AVATTO", model: "ZTS02"},
            tuya.whitelabel("PSMART", "T462", "2 Gang switch with backlight, countdown, inching", ["_TZ3000_wnzoyohq"]),
            tuya.whitelabel("Nova Digital", "FZB-2", "2-Gang switch with backlight, countdown and inching", ["_TZ3000_5ksufhqi"]),
            tuya.whitelabel("iHseno", "_TZ3000_zxrfobzw", "2-gang touch switch", ["_TZ3000_zxrfobzw"]),
        ],
    },

    {
        fingerprint: tuya.fingerprint("TS0002", ["_TZ3000_h1ipgkwn", "_TZ3000_tas0zemd"]),
        model: "_TZ3000_h1ipgkwn",
        description: "2 channel USB switch",
        vendor: "Tuya",
        extend: [m.deviceEndpoints({endpoints: {l1: 1, l2: 2}}), m.onOff({powerOnBehavior: true, endpointNames: ["l1", "l2"]})],
        whiteLabel: [tuya.whitelabel("Hej", "BDS03G2", "2 gang switch", ["_TZ3000_tas0zemd"])],
    },

    ////////////////////////
    // TS0003 DEFINITIONS //
    ////////////////////////

    {
        fingerprint: tuya.fingerprint("TS0003", [
            "_TZ3000_rhkfbfcv",
            "_TZ3000_empogkya",
            "_TZ3000_lubfc1t5",
            "_TZ3000_lsunm46z",
            "_TZ3000_v4l4b0lp",
            "_TZ3000_uilitwsy",
            "_TZ3000_66fekqhh",
            "_TZ3000_ok0ggpk7",
            "_TZ3000_aknpkt02",
        ]),
        model: "TS0003_switch_3_gang_with_backlight",
        vendor: "Tuya",
        description: "3-Gang switch with backlight",
        extend: [
            tuya.modernExtend.tuyaOnOff({
                powerOnBehavior2: true,
                indicatorMode: true,
                backlightModeOffOn: true,
                endpoints: ["l1", "l2", "l3"],
            }),
        ],
        endpoint: (device) => {
            return {l1: 1, l2: 2, l3: 3};
        },
        meta: {multiEndpoint: true},
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            await reporting.bind(device.getEndpoint(1), coordinatorEndpoint, ["genOnOff"]);
            await reporting.bind(device.getEndpoint(2), coordinatorEndpoint, ["genOnOff"]);
            await reporting.bind(device.getEndpoint(3), coordinatorEndpoint, ["genOnOff"]);
        },
        whiteLabel: [
            tuya.whitelabel("Lonsonho", "X703A", "3 Gang switch with backlight", ["_TZ3000_rhkfbfcv"]),
            tuya.whitelabel("Zemismart", "ZM-L03E-Z", "3 gang switch with neutral", ["_TZ3000_empogkya", "_TZ3000_lsunm46z"]),
            tuya.whitelabel("Zemismart", "KES-606US-L3", "3 gang switch with neutral", ["_TZ3000_uilitwsy"]),
            tuya.whitelabel("AVATTO", "ZWOT16-W2", "2 gang switch and 1 socket", ["_TZ3000_66fekqhh"]),
            tuya.whitelabel("Tuya", "M10Z", "2 gang switch with 20A power socket", ["_TZ3000_lubfc1t5"]),
            tuya.whitelabel("Zemismart", "ZMO-606-S2", "Smart 2 gangs switch with outlet", ["_TZ3000_aknpkt02"]),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS0003", ["_TZ3000_fawk5xjv", "_TZ3000_bvij6kod", "_TZ3000_aracgljk"]),
        model: "NFZB-03",
        vendor: "Nova Digital",
        description: "3 gang switch with power-on behavior and indicator mode",
        whiteLabel: [tuya.whitelabel("Nova Digital", "SA-3", "Safira smart light switch - 3 gang", ["_TZ3000_aracgljk"])],
        extend: [
            tuya.modernExtend.tuyaBase(),
            m.deviceEndpoints({endpoints: {l1: 1, l2: 2, l3: 3}}),
            tuya.modernExtend.tuyaOnOff({
                endpoints: ["l1", "l2", "l3"],
                powerOutageMemory: true,
                switchType: true,
                indicatorMode: true,
                backlightModeOffOn: true,
                inchingSwitch: true,
            }),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS0003", ["_TZ3000_dyzkbcip"]),
        model: "Mercurio-3",
        vendor: "Ekaza",
        description: "Smart 3-channel switch",
        configure: tuya.configureMagicPacket,
        extend: [
            tuya.modernExtend.tuyaBase(),
            m.deviceEndpoints({endpoints: {l1: 1, l2: 2, l3: 3}}),
            tuya.modernExtend.tuyaOnOff({
                powerOutageMemory: true,
                indicatorMode: true,
                onOffCountdown: true,
                endpoints: ["l1", "l2", "l3"],
            }),
        ],
    },
    {
        zigbeeModel: ["TS0003"],
        model: "TS0003",
        vendor: "Tuya",
        description: "3 gang switch",
        extend: [
            m.deviceEndpoints({endpoints: {left: 1, center: 2, right: 3}}),
            m.onOff({
                endpointNames: ["left", "center", "right"],
                powerOnBehavior: false,
            }),
        ],
        whiteLabel: [
            {vendor: "BSEED", model: "TS0003", description: "Zigbee switch"},
            tuya.whitelabel("Tuya", "TS0003_1", "3 gang switch", ["_TZ3000_ouwfc1qj"]),
            tuya.whitelabel("Zemismart", "TB26-3", "3 gang switch", ["_TZ3000_eqsair32"]),
        ],
        meta: {disableDefaultResponse: true},
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0003", ["_TZ3000_4o16jdca", "_TZ3000_odzoiovu", "_TZ3000_hbic3ka3", "_TZ3000_lvhy15ix", "_TZ3000_mhhxxjrs"]),
        model: "TS0003_switch_module_2",
        vendor: "Tuya",
        description: "3 gang switch module",
        extend: [
            tuya.modernExtend.tuyaOnOff({
                switchType: true,
                onOffCountdown: true,
                indicatorMode: true,
                endpoints: ["l1", "l2", "l3"],
            }),
        ],
        endpoint: (device) => {
            return {l1: 1, l2: 2, l3: 3};
        },
        meta: {multiEndpoint: true},
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            await reporting.bind(device.getEndpoint(1), coordinatorEndpoint, ["genOnOff"]);
            await reporting.bind(device.getEndpoint(2), coordinatorEndpoint, ["genOnOff"]);
            await reporting.bind(device.getEndpoint(3), coordinatorEndpoint, ["genOnOff"]);
        },
        whiteLabel: [
            tuya.whitelabel("AVATTO", "ZWSM16-3-Zigbee", "3 gang switch module", ["_TZ3000_hbic3ka3"]),
            tuya.whitelabel("iHseno", "_TZ3000_mhhxxjrs", "3 gang switch module", ["_TZ3000_mhhxxjrs"]),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS0003", ["_TZ3000_pf7swkqp"]),
        model: "TS0003_switch_module_3",
        vendor: "Tuya",
        description: "3 gang switch module",
        extend: [
            tuya.modernExtend.tuyaOnOff({
                switchType: true,
                endpoints: ["l1", "l2", "l3"],
            }),
        ],
        endpoint: (device) => {
            return {l1: 1, l2: 2, l3: 3};
        },
        meta: {multiEndpoint: true},
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            await reporting.bind(device.getEndpoint(1), coordinatorEndpoint, ["genOnOff"]);
            await reporting.bind(device.getEndpoint(2), coordinatorEndpoint, ["genOnOff"]);
            await reporting.bind(device.getEndpoint(3), coordinatorEndpoint, ["genOnOff"]);
        },
        whiteLabel: [tuya.whitelabel("RSH", "SB03-Zigbee", "3 gang switch module", ["_TZ3000_pf7swkqp"])],
    },
    {
        fingerprint: tuya.fingerprint("TS0003", ["_TZ3000_ju82pu2b"]),
        model: "TW-03",
        vendor: "Tuya",
        description: "3-Gang switch",
        extend: [
            tuya.modernExtend.tuyaOnOff({
                powerOnBehavior2: true,
                endpoints: ["l1", "l2", "l3"],
            }),
        ],
        endpoint: (device) => {
            return {l1: 1, l2: 2, l3: 3};
        },
        meta: {multiEndpoint: true},
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            await reporting.bind(device.getEndpoint(1), coordinatorEndpoint, ["genOnOff"]);
            await reporting.bind(device.getEndpoint(2), coordinatorEndpoint, ["genOnOff"]);
            await reporting.bind(device.getEndpoint(3), coordinatorEndpoint, ["genOnOff"]);
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0003", ["_TZ3000_vsasbzkf", "_TZ3000_nnwehhst"]),
        model: "TS0003_switch_module_1",
        vendor: "Tuya",
        description: "3 gang switch module",
        whiteLabel: [{vendor: "OXT", model: "SWTZ23"}],
        extend: [
            tuya.modernExtend.tuyaOnOff({
                switchType: true,
                backlightModeOffOn: true,
                endpoints: ["l1", "l2", "l3"],
            }),
        ],
        endpoint: (device) => {
            return {l1: 1, l2: 2, l3: 3};
        },
        meta: {multiEndpoint: true},
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            await reporting.bind(device.getEndpoint(1), coordinatorEndpoint, ["genOnOff"]);
            await reporting.bind(device.getEndpoint(2), coordinatorEndpoint, ["genOnOff"]);
            await reporting.bind(device.getEndpoint(3), coordinatorEndpoint, ["genOnOff"]);
        },
    },
    {
        fingerprint: [{modelID: "TS0003", manufacturerName: "_TZ3000_mw1pqqqt"}],
        model: "_TZ3000_mw1pqqqt",
        description: "3 channel USB switch",
        vendor: "Tuya",
        extend: [
            tuya.modernExtend.tuyaOnOff({
                switchType: false,
                indicatorMode: false,
                onOffCountdown: true,
                endpoints: ["l1", "l2", "l3"],
            }),
        ],
        endpoint: (device) => {
            return {l1: 1, l2: 2, l3: 3};
        },
        meta: {multiEndpoint: true},
    },
    {
        fingerprint: tuya.fingerprint("TS0001", [
            "_TZ3000_tqlv4ug4",
            "_TZ3000_gjrubzje",
            "_TZ3000_tygpxwqa",
            "_TZ3000_4rbqgcuv",
            "_TZ3000_veu2v775",
            "_TZ3000_prits6g4",
            "_TZ3000_afgzktgb",
        ]),
        model: "TS0001_switch_module",
        vendor: "Tuya",
        description: "1 gang switch module",
        whiteLabel: [
            {vendor: "OXT", model: "SWTZ21"},
            {vendor: "Moes", model: "ZM-104-M"},
            tuya.whitelabel("AVATTO", "ZWSM16-1-Zigbee", "1 gang switch module", ["_TZ3000_4rbqgcuv"]),
        ],
        extend: [tuya.modernExtend.tuyaOnOff({switchType: true, onOffCountdown: true, indicatorMode: true})],
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            await reporting.bind(device.getEndpoint(1), coordinatorEndpoint, ["genOnOff"]);
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0001", ["_TZ3000_pgq7ormg"]),
        model: "_TZ3000_pgq7ormg",
        vendor: "iHseno",
        description: "1 gang switch module",
        extend: [tuya.modernExtend.tuyaOnOff({switchType: true, onOffCountdown: true, indicatorMode: true})],
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            await reporting.bind(device.getEndpoint(1), coordinatorEndpoint, ["genOnOff"]);
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0004", ["_TZ3000_ltt60asa", "_TZ3000_mmkbptmx", "_TZ3000_liygxtcq"]),
        model: "TS0004_switch_module",
        vendor: "Tuya",
        description: "4 gang switch module",
        whiteLabel: [{vendor: "OXT", model: "SWTZ27"}, tuya.whitelabel("RSH", "SB04-Zigbee", "4 gang switch", ["_TZ3000_liygxtcq"])],
        extend: [
            tuya.modernExtend.tuyaOnOff({
                switchType: true,
                endpoints: ["l1", "l2", "l3", "l4"],
            }),
        ],
        endpoint: (device) => {
            return {l1: 1, l2: 2, l3: 3, l4: 4};
        },
        meta: {multiEndpoint: true},
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            await reporting.bind(device.getEndpoint(1), coordinatorEndpoint, ["genOnOff"]);
            await reporting.bind(device.getEndpoint(2), coordinatorEndpoint, ["genOnOff"]);
            await reporting.bind(device.getEndpoint(3), coordinatorEndpoint, ["genOnOff"]);
            await reporting.bind(device.getEndpoint(4), coordinatorEndpoint, ["genOnOff"]);
        },
    },
    {
        zigbeeModel: [
            "owvfni3\u0000",
            "owvfni3",
            "u1rkty3",
            "aabybja", // Curtain motors
            "mcdj3aq",
            "mcdj3aq\u0000", // Tubular motors
        ],
        fingerprint: [
            ...tuya.fingerprint("TS0601", [
                "_TZE200_5zbp6j0u",
                "_TZE200_nkoabg8w",
                "_TZE200_xuzcvlku",
                "_TZE200_4vobcgd3",
                "_TZE200_nogaemzt",
                "_TZE200_r0jdjrvi",
                "_TZE200_pk0sfzvr",
                "_TZE200_fdtjuw7u",
                "_TZE200_zpzndjez",
                "_TZE200_wmcdj3aq",
                "_TZE200_cowvfni3",
                "_TZE200_rddyvrci",
                "_TZE200_nueqqe6k",
                "_TZE200_bqcqqjpb",
                "_TZE200_xaabybja",
                "_TZE200_rmymn92d",
                "_TZE200_feolm6rk",
                "_TZE200_3i3exuay",
                "_TZE200_tvrvdj6o",
                "_TZE200_b2u1drdv",
                "_TZE200_ol5jlkkr",
                "_TZE204_guvc7pdy",
                "_TZE200_zxxfv8wi",
                "_TZE200_1fuxihti",
                "_TZE204_1fuxihti",
                "_TZE204_57hjqelq",
                "_TZE204_vvvtcehj",
                "_TZE200_hojryzzd",
                "_TZE204_m1wl5fvq",
                "_TZE200_en3wvcbx",
                "_TZE200_fctwhugx",
                "_TZE200_hsgrhjpf",
                "_TZE200_g5wdnuow",
                "_TZE200_5sbebbzs",
                "_TZE200_udank5zs",
                "_TZE204_dpqsvdbi",
                "_TZE200_zuz7f94z",
                "_TZE200_nv6nxo0c",
                "_TZE200_3ylew7b4",
                "_TZE200_llm0epxg",
                "_TZE200_n1aauwb4",
                "_TZE200_xu4a5rhj",
                "_TZE200_bjzrowv2",
                "_TZE204_bjzrowv2",
                "_TZE200_axgvo9jh",
                "_TZE200_gaj531w3",
                "_TZE200_yia0p3tr",
                "_TZE200_rsj5pu8y",
                "_TZE200_yrugsphv",
                "_TZE204_yrugsphv",
                "_TZE204_nladmfvf",
                "_TZE200_2odrmqwq",
                "_TZE204_lh3arisb",
                "_TZE284_udank5zs",
                "_TZE284_6hrnp30w",
                "_TZE284_b7kbnl6q",
                "_TZE200_7shyddj3",
                "_TZE204_a2jcoyuk",
                "_TZE204_ic7jtutb",
                "_TZE204_odlldrxx",
                "_TZE200_odlldrxx",
                "_TZE204_zuq5xxib",
            ]),
            ...tuya.fingerprint("zo2pocs\u0000", ["_TYST11_fzo2pocs"]),
            ...tuya.fingerprint("dank5zs\u0000", ["_TYST11_udank5zs"]),
        ],
        model: "TS0601_cover_1",
        vendor: "Tuya",
        description: "Curtain motor/roller blind motor/window pusher/tubular motor",
        whiteLabel: [
            {vendor: "Yushun", model: "YS-MT750"},
            tuya.whitelabel("Yushun", "YS-MT750L", "Curtain motor", ["_TZE200_bqcqqjpb", "_TZE200_gaj531w3"]),
            {vendor: "Zemismart", model: "ZM79E-DT"},
            {vendor: "Binthen", model: "BCM100D"},
            {vendor: "Binthen", model: "CV01A"},
            {vendor: "Zemismart", model: "M515EGB"},
            {vendor: "Oz Smart Things", model: "ZM85EL-1Z"},
            {vendor: "Tuya", model: "M515EGZT"},
            {vendor: "Tuya", model: "DT82LEMA-1.2N"},
            {vendor: "Tuya", model: "ZD82TN", description: "Curtain motor"},
            {vendor: "Larkkey", model: "ZSTY-SM-1SRZG-EU"},
            {vendor: "Zemismart", model: "AM43", description: "Roller blind motor"},
            {
                vendor: "Zemismart",
                model: "M2805EGBZTN",
                description: "Tubular motor",
            },
            {
                vendor: "Zemismart",
                model: "BCM500DS-TYZ",
                description: "Curtain motor",
            },
            {vendor: "A-OK", model: "AM25", description: "Tubular motor"},
            {vendor: "Alutech", model: "AM/R-Sm", description: "Tubular motor"},
            tuya.whitelabel("Shenzhen Golden Security Technology", "GM46", "Curtain motor", ["_TZE204_guvc7pdy"]),
            tuya.whitelabel("Roximo", "CRTZ01", "Curtain motor", ["_TZE204_57hjqelq", "_TZE204_vvvtcehj"]),
            {vendor: "Quoya", model: "AT8510-TY"},
            tuya.whitelabel("Somgoms", "ZSTY-SM-1DMZG-US-W_1", "Curtain switch", ["_TZE200_axgvo9jh"]),
            tuya.whitelabel("HUARUI", "CMD900LE", "Lithium battery intelligent curtain opening and closing motor", ["_TZE200_zxxfv8wi"]),
            tuya.whitelabel("Novato", "WPK", "Smart curtain track", ["_TZE204_lh3arisb"]),
            tuya.whitelabel("Zemismart", "ZMS1-TYZ", "Smart curtain track", ["_TZE204_zuq5xxib"]),
        ],
        fromZigbee: [legacy.fromZigbee.tuya_cover],
        toZigbee: [legacy.toZigbee.tuya_cover_control, legacy.toZigbee.tuya_cover_options],
        exposes: [
            e.cover_position().setAccess("position", ea.STATE_SET),
            e
                .composite("options", "options", ea.STATE_SET)
                .withFeature(e.numeric("motor_speed", ea.STATE_SET).withValueMin(0).withValueMax(255).withDescription("Motor speed"))
                .withFeature(e.binary("reverse_direction", ea.STATE_SET, true, false).withDescription("Reverse the motor direction")),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_xu4a5rhj"]),
        model: "M3TYW-2.0-13",
        vendor: "Tuya",
        description: "Longsam M3 curtain motor",
        fromZigbee: [legacy.fromZigbee.tuya_cover],
        toZigbee: [tzLocal.invert_cover_percent_fix, legacy.toZigbee.tuya_cover_options],
        exposes: [
            e.cover_position().setAccess("position", ea.STATE_SET),
            e
                .composite("options", "options", ea.STATE_SET)
                .withFeature(e.numeric("motor_speed", ea.STATE_SET).withValueMin(0).withValueMax(255).withDescription("Motor speed"))
                .withFeature(e.binary("reverse_direction", ea.STATE_SET, true, false).withDescription("Reverse the motor direction")),
        ],
        options: [exposes.options.cover_position_percent_fix()],
    },
    {
        fingerprint: [...tuya.fingerprint("TS0601", ["_TZE200_eegnwoyw"]), ...tuya.fingerprint("TS0105", ["_TZE600_ogyg1y6b"])],
        model: "TS0601_cover_2",
        vendor: "Tuya",
        description: "Curtain motor or roller blind motor with fixed speed",
        whiteLabel: [
            tuya.whitelabel("Zemismart", "BCM100DB", "Curtain Motor", ["_TZE200_eegnwoyw"]),
            tuya.whitelabel("Nova Digital", "ZBCMR-01", "Roller Blind Motor", ["_TZE600_ogyg1y6b"]),
        ],
        fromZigbee: [legacy.fromZigbee.tuya_cover],
        toZigbee: [legacy.toZigbee.tuya_cover_control],
        exposes: [e.cover_position().setAccess("position", ea.STATE_SET)],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_cpbo62rn", "_TZE200_libht6ua", "_TZE284_libht6ua"]),
        model: "TS0601_cover_6",
        vendor: "Tuya",
        description: "Cover motor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.text("work_state", ea.STATE),
            e.cover_position().setAccess("position", ea.STATE_SET),
            e.battery(),
            e.illuminance().withUnit("%"),
            e.enum("opening_mode", ea.STATE_SET, ["tilt", "lift"]).withDescription("Opening mode"),
            e.enum("motor_direction", ea.STATE_SET, ["left", "right"]).withDescription("Motor side"),
            e.enum("set_upper_limit", ea.STATE_SET, ["start", "stop"]).withDescription("Learning"),
            e.enum("factory_reset", ea.STATE_SET, ["SET"]).withDescription("Remove limits"),
        ],
        whiteLabel: [tuya.whitelabel("Tuya", "LY-108", "Cover", ["_TZE200_cpbo62rn"])],
        meta: {
            tuyaDatapoints: [
                [
                    1,
                    "state",
                    tuya.valueConverterBasic.lookup({
                        CLOSE: tuya.enum(2),
                        STOP: tuya.enum(1),
                        OPEN: tuya.enum(0),
                    }),
                ],
                [2, "position", tuya.valueConverter.coverPositionInverted],
                [3, "position", tuya.valueConverter.coverPositionInverted],
                [
                    4,
                    "opening_mode",
                    tuya.valueConverterBasic.lookup({
                        tilt: tuya.enum(0),
                        lift: tuya.enum(1),
                    }),
                ],
                [
                    7,
                    "work_state",
                    tuya.valueConverterBasic.lookup({
                        standby: tuya.enum(0),
                        success: tuya.enum(1),
                        learning: tuya.enum(2),
                    }),
                ],
                [13, "battery", tuya.valueConverter.raw],
                [
                    101,
                    "motor_direction",
                    tuya.valueConverterBasic.lookup({
                        left: tuya.enum(0),
                        right: tuya.enum(1),
                    }),
                ],
                [
                    102,
                    "set_upper_limit",
                    tuya.valueConverterBasic.lookup({
                        start: tuya.enum(1),
                        stop: tuya.enum(0),
                    }),
                ],
                [104, "illuminance", tuya.valueConverter.raw],
                [107, "factory_reset", tuya.valueConverter.setLimit],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_zvo63cmo"]),
        model: "TS0601_cover_7",
        vendor: "Tuya",
        description: "Cover motor",
        extend: [tuya.modernExtend.tuyaBase({dp: true, respondToMcuVersionResponse: true})],
        exposes: [e.cover_position().setAccess("position", ea.STATE_SET), e.battery()],
        meta: {
            tuyaDatapoints: [
                [
                    1,
                    "state",
                    tuya.valueConverterBasic.lookup({
                        OPEN: tuya.enum(0),
                        STOP: tuya.enum(1),
                        CLOSE: tuya.enum(2),
                    }),
                ],
                [2, "position", tuya.valueConverter.coverPosition],
                [3, "position", tuya.valueConverter.raw],
                // motor_direction doesn't work: https://github.com/Koenkk/zigbee2mqtt/issues/18103
                // [5, 'motor_direction', tuya.valueConverterBasic.lookup({'normal': tuya.enum(0), 'reversed': tuya.enum(1)})],
                [101, "battery", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_r0jdjrvi", "_TZE200_g5xqosu7", "_TZE204_g5xqosu7", "_TZE284_fzo2pocs", "_TZE200_9vpe3fl1"]),
        model: "TS0601_cover_8",
        vendor: "Tuya",
        description: "Cover motor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        options: [exposes.options.invert_cover()],
        exposes: [
            e.cover_position().setAccess("position", ea.STATE_SET),
            e.enum("reverse_direction", ea.STATE_SET, ["forward", "back"]).withDescription("Reverse the motor direction"),
            e.binary("motor_fault", ea.STATE, true, false).withDescription("Motor Fault"),
            e
                .enum("upper_stroke_limit", ea.STATE_SET, ["SET", "RESET"])
                .withDescription("Set or Reset the upper stroke limit")
                .withCategory("config"),
            e
                .enum("middle_stroke_limit", ea.STATE_SET, ["SET", "RESET"])
                .withDescription("Set or Reset the middle stroke limit")
                .withCategory("config"),
            e
                .enum("lower_stroke_limit", ea.STATE_SET, ["SET", "RESET"])
                .withDescription("Set or Reset the lower stroke limit")
                .withCategory("config"),
            e
                .enum("motor_working_mode", ea.STATE_SET, ["continuous", "intermittently"])
                .withDescription("Motor operating mode")
                .withCategory("config"),
        ],
        meta: {
            tuyaDatapoints: [
                [
                    1,
                    "state",
                    tuya.valueConverterBasic.lookup({
                        OPEN: tuya.enum(0),
                        STOP: tuya.enum(1),
                        CLOSE: tuya.enum(2),
                    }),
                ],
                [2, "position", tuya.valueConverter.coverPositionInverted],
                [3, "position", tuya.valueConverter.coverPositionInverted],
                [
                    5,
                    "reverse_direction",
                    tuya.valueConverterBasic.lookup({
                        forward: tuya.enum(0),
                        back: tuya.enum(1),
                    }),
                ],
                [12, "motor_fault", tuya.valueConverter.trueFalse1],
                [103, "upper_stroke_limit", tuya.valueConverterBasic.lookup({SET: true, RESET: false})],
                [104, "middle_stroke_limit", tuya.valueConverterBasic.lookup({SET: true, RESET: false})],
                [105, "lower_stroke_limit", tuya.valueConverterBasic.lookup({SET: true, RESET: false})],
                [106, "motor_working_mode", tuya.valueConverterBasic.lookup({continuous: tuya.enum(0), intermittently: tuya.enum(1)})],
            ],
        },
        whiteLabel: [
            tuya.whitelabel("Lilistore", "TS0601_lilistore", "Cover motor", ["_TZE204_r0jdjrvi"]),
            tuya.whitelabel("Zemismart", "ZM90E-DT250N/A400", "Window opener", ["_TZE204_r0jdjrvi"]),
            tuya.whitelabel("Nova Digital", "CMR-1", "Roller Blind Motor", ["_TZE200_9vpe3fl1"]),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_a8z0g46u", "_TZE204_a8z0g46u"]),
        model: "YY-LT500",
        vendor: "Tuya",
        description: "Window opener",
        options: [exposes.options.invert_cover()],
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [e.cover_position().setAccess("position", ea.STATE_SET)],
        meta: {
            tuyaDatapoints: [
                [
                    2,
                    "state",
                    tuya.valueConverterBasic.lookup({
                        OPEN: tuya.enum(0),
                        STOP: tuya.enum(1),
                        CLOSE: tuya.enum(2),
                    }),
                ],
                [7, "position", tuya.valueConverter.coverPosition],
                [8, "position", tuya.valueConverter.coverPosition],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_p2qzzazi"]),
        model: "TS0601_cover_9",
        vendor: "Tuya",
        description: "Cover motor",
        extend: [tuya.modernExtend.tuyaBase({dp: true, respondToMcuVersionResponse: true})],
        exposes: [e.cover_position().setAccess("position", ea.STATE_SET), e.battery()],
        meta: {
            tuyaDatapoints: [
                [
                    1,
                    "state",
                    tuya.valueConverterBasic.lookup({
                        OPEN: tuya.enum(0),
                        STOP: tuya.enum(1),
                        CLOSE: tuya.enum(2),
                    }),
                ],
                [2, "position", tuya.valueConverter.coverPosition],
                [3, "position", tuya.valueConverter.raw],
                [
                    5,
                    "motor_direction",
                    tuya.valueConverterBasic.lookup({
                        normal: tuya.enum(0),
                        reversed: tuya.enum(1),
                    }),
                ],
                [101, "battery", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE284_debczeci", "_TZE284_1lvln0x6", "_TZE204_debczeci"]),
        model: "TS0601_human_presence",
        vendor: "iHseno",
        description: "Human presence sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true, forceTimeUpdates: true})],
        exposes: [
            e.presence().withDescription("Human presence detected"),
            e.battery().withDescription("Battery percentage"),
            e.enum("sensitivity", ea.STATE_SET, ["low", "middle", "high"]).withDescription("Sensor sensitivity"),
            e.enum("delay_time", ea.STATE_SET, ["15s", "30s", "60s"]).withDescription("Delay time in seconds"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "presence", tuya.valueConverter.trueFalse0],
                [4, "battery", tuya.valueConverter.raw],
                [9, "sensitivity", tuya.valueConverterBasic.lookup({low: 0, middle: 1, high: 2})],
                [10, "delay_time", tuya.valueConverterBasic.lookup({"15s": 0, "30s": 1, "60s": 2})],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_clm4gdw4", "_TZE200_2vfxweng", "_TZE200_gnw1rril", "_TZE204_ycke4deo", "_TZE284_koxaopnk"]),
        model: "TS0601_cover_10",
        vendor: "Tuya",
        description: "Cover motor",
        extend: [tuya.modernExtend.tuyaBase({dp: true, respondToMcuVersionResponse: true})],
        exposes: [
            e.cover_position().setAccess("position", ea.STATE_SET),
            e.enum("motor_direction", ea.STATE_SET, ["normal", "reversed"]).withDescription("Set the motor direction"),
        ],
        meta: {
            tuyaDatapoints: [
                [
                    1,
                    "state",
                    tuya.valueConverterBasic.lookup({
                        OPEN: tuya.enum(2),
                        STOP: tuya.enum(1),
                        CLOSE: tuya.enum(0),
                    }),
                ],
                [2, "position", tuya.valueConverter.coverPosition],
                [3, "position", tuya.valueConverter.raw],
                [5, "motor_direction", tuya.valueConverterBasic.lookup({normal: false, reversed: true})],
            ],
        },
        whiteLabel: [
            tuya.whitelabel("Nova Digital", "ZC-GM42", "Roller blind motor", ["_TZE204_ycke4deo"]),
            tuya.whitelabel("Moes", "ZC-LS02", "Roller blind motor", ["_TZE284_koxaopnk"]),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_ax8a8ahx"]),
        model: "ZM79E-DT",
        vendor: "Tervix",
        description: "Pro Line Zigbee curtain motor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.text("work_state", ea.STATE),
            e.cover_position().setAccess("position", ea.STATE_SET),
            e.enum("opening_mode", ea.STATE_SET, ["tilt", "lift"]).withDescription("Opening mode"),
            e.enum("motor_direction", ea.STATE_SET, ["left", "right"]).withDescription("Motor side"),
            e.enum("set_upper_limit", ea.STATE_SET, ["start", "stop"]).withDescription("Learning"),
            e.enum("factory_reset", ea.STATE_SET, ["SET"]).withDescription("Remove limits"),
        ],
        meta: {
            tuyaDatapoints: [
                [
                    1,
                    "state",
                    tuya.valueConverterBasic.lookup({
                        CLOSE: tuya.enum(2),
                        STOP: tuya.enum(1),
                        OPEN: tuya.enum(0),
                    }),
                ],
                [2, "position", tuya.valueConverter.coverPositionInverted],
                [3, "position", tuya.valueConverter.coverPositionInverted],
                [
                    4,
                    "opening_mode",
                    tuya.valueConverterBasic.lookup({
                        tilt: tuya.enum(0),
                        lift: tuya.enum(1),
                    }),
                ],
                [
                    7,
                    "work_state",
                    tuya.valueConverterBasic.lookup({
                        standby: tuya.enum(0),
                        success: tuya.enum(1),
                        learning: tuya.enum(2),
                    }),
                ],
                [
                    101,
                    "motor_direction",
                    tuya.valueConverterBasic.lookup({
                        left: tuya.enum(0),
                        right: tuya.enum(1),
                    }),
                ],
                [
                    102,
                    "set_upper_limit",
                    tuya.valueConverterBasic.lookup({
                        start: tuya.enum(1),
                        stop: tuya.enum(0),
                    }),
                ],
                [107, "factory_reset", tuya.valueConverter.setLimit],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_2rvvqjoa"]),
        model: "BX82-TYZ1",
        vendor: "Manhot",
        description: "Cover motor",
        extend: [tuya.modernExtend.tuyaBase({dp: true, respondToMcuVersionResponse: true})],
        exposes: [
            e.cover_position().setAccess("position", ea.STATE_SET),
            e.enum("motor_direction", ea.STATE_SET, ["normal", "reversed"]).withDescription("Set the motor direction"),
        ],
        meta: {
            tuyaDatapoints: [
                [
                    1,
                    "state",
                    tuya.valueConverterBasic.lookup({
                        OPEN: tuya.enum(2),
                        STOP: tuya.enum(1),
                        CLOSE: tuya.enum(0),
                    }),
                ],
                [2, "position", tuya.valueConverter.coverPosition],
                [3, "position", tuya.valueConverter.raw],
                [
                    5,
                    "motor_direction",
                    tuya.valueConverterBasic.lookup({
                        normal: tuya.enum(0),
                        reversed: tuya.enum(1),
                    }),
                ],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE284_2gi1hy8s"]),
        model: "MB60L-ZG-ZT-TY",
        vendor: "Manhot",
        description: "Smart blinds motor",
        extend: [tuya.modernExtend.tuyaBase({dp: true, respondToMcuVersionResponse: true})],
        exposes: [
            e.battery(),
            e.cover_position().setAccess("position", ea.STATE_SET),
            e.enum("set_limits", ea.STATE_SET, ["up", "down", "reset"]),
            e.enum("motor_direction", ea.STATE_SET, ["normal", "reversed"]).withDescription("Motor Steering"),
            e.binary("tilt_mode", ea.STATE_SET, "ON", "OFF").withDescription("Step movement"),
            e.binary("child_lock", ea.STATE_SET, "ON", "OFF").withDescription("Child Lock"),
        ],
        meta: {
            tuyaDatapoints: [
                [
                    1,
                    "state",
                    tuya.valueConverterBasic.lookup({
                        OPEN: tuya.enum(0),
                        STOP: tuya.enum(1),
                        CLOSE: tuya.enum(2),
                    }),
                ],
                [9, "position", tuya.valueConverter.coverPositionInverted],
                [
                    11,
                    "motor_direction",
                    tuya.valueConverterBasic.lookup({
                        normal: tuya.enum(0),
                        reversed: tuya.enum(1),
                    }),
                ],
                [13, "battery", tuya.valueConverter.raw],
                [
                    16,
                    "set_limits",
                    tuya.valueConverterBasic.lookup({
                        up: tuya.enum(0),
                        down: tuya.enum(1),
                        reset: tuya.enum(2),
                    }),
                ],
                [101, "child_lock", tuya.valueConverter.onOff],
                [103, "tilt_mode", tuya.valueConverter.onOff],
            ],
        },
    },
    {
        zigbeeModel: ["kud7u2l"],
        fingerprint: tuya.fingerprint("TS0601", [
            "_TZE200_ckud7u2l",
            "_TZE200_ywdxldoj",
            "_TZE200_do5qy8zo",
            "_TZE200_cwnjrr72",
            "_TZE200_pvvbommb",
            "_TZE200_9sfg7gm0",
            "_TZE200_2atgpdho",
            "_TZE200_znlqjmih",
            "_TZE284_znlqjmih",
            "_TZE200_8thwkzxl",
            "_TZE200_4eeyebrt",
            "_TZE200_8whxpsiw",
            "_TZE200_7fqkphoq",
            "_TZE200_rufdtfyv" /* model: '07732L', vendor: 'Immax' */,
            "_TZE200_lpwgshtl",
            "_TZE200_rk1wojce" /* model: 'P5630S', vendor: 'Emos' */,
            "_TZE200_rndg81sf" /* model: 'HY368', vendor: 'THALEOS' */,
            "_TZE200_qjp4ynvi",
            "_TZE200_xby0s3ta",
            "_TZE200_cpmgn2cf",
        ]),
        model: "TS0601_thermostat",
        vendor: "Tuya",
        description: "Radiator valve with thermostat",
        whiteLabel: [
            {vendor: "Moes", model: "HY368"},
            {vendor: "Moes", model: "HY369RT"},
            {vendor: "SHOJZJ", model: "378RT"},
            {vendor: "Silvercrest", model: "TVR01"},
            {vendor: "Immax", model: "07732B"},
            tuya.whitelabel("Immax", "07732L", "Radiator valve with thermostat", ["_TZE200_rufdtfyv"]),
            {vendor: "Evolveo", model: "Heat M30"},
            tuya.whitelabel("Emos", "P5630S", "Radiator valve with thermostat", ["_TZE200_rk1wojce"]),
            tuya.whitelabel("THALEOS", "HY368", "Radiator valve with thermostat", ["_TZE200_rndg81sf"]),
        ],
        meta: {
            tuyaThermostatPreset: legacy.thermostatPresets,
            tuyaThermostatSystemMode: legacy.thermostatSystemModes3,
        },
        ota: true,
        extend: [tuya.modernExtend.tuyaBase({forceTimeUpdates: true, timeStart: "1970"})],
        fromZigbee: [legacy.fromZigbee.tuya_thermostat, fz.ignore_tuya_set_time],
        toZigbee: [
            legacy.toZigbee.tuya_thermostat_child_lock,
            legacy.toZigbee.tuya_thermostat_window_detection,
            legacy.toZigbee.tuya_thermostat_valve_detection,
            legacy.toZigbee.tuya_thermostat_current_heating_setpoint,
            legacy.toZigbee.tuya_thermostat_auto_lock,
            legacy.toZigbee.tuya_thermostat_calibration,
            legacy.toZigbee.tuya_thermostat_min_temp,
            legacy.toZigbee.tuya_thermostat_max_temp,
            legacy.toZigbee.tuya_thermostat_boost_time,
            legacy.toZigbee.tuya_thermostat_comfort_temp,
            legacy.toZigbee.tuya_thermostat_eco_temp,
            legacy.toZigbee.tuya_thermostat_force_to_mode,
            legacy.toZigbee.tuya_thermostat_force,
            legacy.toZigbee.tuya_thermostat_preset,
            legacy.toZigbee.tuya_thermostat_window_detect,
            legacy.toZigbee.tuya_thermostat_schedule,
            legacy.toZigbee.tuya_thermostat_week,
            legacy.toZigbee.tuya_thermostat_schedule_programming_mode,
            legacy.toZigbee.tuya_thermostat_away_mode,
            legacy.toZigbee.tuya_thermostat_away_preset,
        ],
        exposes: [
            e.child_lock(),
            e.window_detection(),
            e.binary("window_open", ea.STATE, true, false).withDescription("Window open?"),
            e.battery_low(),
            e.valve_detection(),
            e.position(),
            e
                .climate()
                .withSetpoint("current_heating_setpoint", 5, 35, 0.5, ea.STATE_SET)
                .withLocalTemperature(ea.STATE)
                .withSystemMode(
                    ["heat", "auto", "off"],
                    ea.STATE_SET,
                    "Mode of this device, in the `heat` mode the TS0601 will remain continuously heating, i.e. it does not regulate " +
                        "to the desired temperature. If you want TRV to properly regulate the temperature you need to use mode `auto` " +
                        "instead setting the desired temperature.",
                )
                .withLocalTemperatureCalibration(-9, 9, 0.5, ea.STATE_SET)
                .withPreset(["schedule", "manual", "boost", "complex", "comfort", "eco", "away"])
                .withRunningState(["idle", "heat"], ea.STATE),
            e.auto_lock(),
            e.away_mode(),
            e.away_preset_days(),
            e.boost_time(),
            e.comfort_temperature(),
            e.eco_temperature(),
            e.force(),
            e.max_temperature().withValueMin(16).withValueMax(70),
            e.min_temperature(),
            e.away_preset_temperature(),
            e.week(),
            e
                .text("workdays_schedule", ea.STATE_SET)
                .withDescription('Workdays schedule, 6 entries max, example: "00:20/5°C 01:20/5°C 6:59/15°C 18:00/5°C 20:00/5°C 23:30/5°C"'),
            e
                .text("holidays_schedule", ea.STATE_SET)
                .withDescription('Holidays schedule, 6 entries max, example: "00:20/5°C 01:20/5°C 6:59/15°C 18:00/5°C 20:00/5°C 23:30/5°C"'),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_g2ki0ejr"]),
        model: "BAB-1413_Pro",
        vendor: "Tuya",
        description: "Thermostat radiator valve",
        extend: [tuya.modernExtend.tuyaBase({dp: true, timeStart: "2000"})],
        ota: true,
        exposes: [
            e.battery(),
            e.child_lock(),
            e
                .numeric("max_temperature_limit", ea.STATE_SET)
                .withUnit("°C")
                .withDescription("Max temperature limit")
                .withValueMin(15)
                .withValueMax(45)
                .withValueStep(0.5),
            e
                .numeric("min_temperature_limit", ea.STATE_SET)
                .withUnit("°C")
                .withDescription("Min temperature limit")
                .withValueMin(5)
                .withValueMax(15)
                .withValueStep(0.5),
            e.window_detection(),
            e.open_window_temperature().withValueMin(5).withValueMax(30).withValueStep(0.5),
            e.comfort_temperature().withValueMin(5).withValueMax(35),
            e.eco_temperature().withValueMin(5).withValueMax(35).withValueStep(0.5),
            e.holiday_temperature().withValueMin(5).withValueMax(35).withValueStep(0.5),
            e
                .climate()
                .withPreset(["auto", "manual", "holiday", "comfort"])
                .withLocalTemperatureCalibration(-9, 9, 0.5, ea.STATE_SET)
                .withLocalTemperature(ea.STATE)
                .withSetpoint("current_heating_setpoint", 5, 45, 0.5, ea.STATE_SET)
                .withSystemMode(["off", "heat"], ea.STATE_SET, "Only for Homeassistant")
                .withRunningState(["idle", "heat"], ea.STATE_SET),
            tuya.exposes.frostProtection(
                "When Anti-Freezing function is activated, the temperature in the house is kept " +
                    'at 8 °C, the device display "AF".press the pair button to cancel.',
            ),
            e
                .numeric("boost_time", ea.STATE_SET)
                .withUnit("min")
                .withDescription("Boost running time. Minimum 0 - maximum 24 hours")
                .withValueMin(0)
                .withValueMax(1440)
                .withValueStep(15)
                .withCategory("config"),
            e.numeric("boost_timeset_countdown", ea.STATE).withUnit("min").withDescription("Boost time remaining"),
            ...tuya.exposes.scheduleAllDays(ea.STATE_SET, "06:00/21.5 17:20/26 20:00/21 24:00/18").map((text) => text.withCategory("config")),
            e.binary("valve", ea.STATE, "CLOSED", "OPEN"),
            // e.enum('factory_reset', ea.STATE_SET, ['factory reset']).withLabel('Factory reset').withDescription('Reset all settings to factory ones'),
            e
                .binary("factory_reset", ea.STATE_SET, "ON", "OFF")
                .withDescription("Back to factory settings, USE WITH CAUTION"),
            tuya.exposes.errorStatus(),
        ],
        meta: {
            tuyaDatapoints: [
                [
                    49,
                    "running_state",
                    tuya.valueConverterBasic.lookup({
                        heat: tuya.enum(1),
                        idle: tuya.enum(0),
                    }),
                ],
                [
                    49,
                    "system_mode",
                    tuya.valueConverterBasic.lookup({
                        heat: tuya.enum(1),
                        off: tuya.enum(0),
                    }),
                ],
                [
                    2,
                    "preset",
                    tuya.valueConverterBasic.lookup({
                        comfort: tuya.enum(3),
                        auto: tuya.enum(0),
                        manual: tuya.enum(2),
                        holiday: tuya.enum(1),
                    }),
                ],
                [4, "current_heating_setpoint", tuya.valueConverter.divideBy10],
                [5, "local_temperature", tuya.valueConverter.divideBy10],
                [6, "battery", tuya.valueConverter.raw],
                [7, "child_lock", tuya.valueConverter.lockUnlock],
                [9, "max_temperature_limit", tuya.valueConverter.divideBy10],
                [10, "min_temperature_limit", tuya.valueConverter.divideBy10],
                [14, "window_detection", tuya.valueConverter.onOff],
                [16, "open_window_temperature", tuya.valueConverter.divideBy10],
                [17, "open_window_time", tuya.valueConverter.raw],
                // [18, 'backlight', tuya.valueConverter.raw],
                [19, "factory_reset", tuya.valueConverter.onOff],
                [21, "holiday_temperature", tuya.valueConverter.raw],
                [24, "comfort_temperature", tuya.valueConverter.divideBy10],
                [25, "eco_temperature", tuya.valueConverter.divideBy10],
                [17, "schedule_monday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(1)],
                [18, "schedule_tuesday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(2)],
                [19, "schedule_wednesday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(3)],
                [20, "schedule_thursday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(4)],
                [21, "schedule_friday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(5)],
                [22, "schedule_saturday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(6)],
                [23, "schedule_sunday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(7)],
                // [35, 'error_status', tuya.valueConverter.raw],
                [36, "frost_protection", tuya.valueConverter.onOff],
                // [37, 'boost_time', tuya.valueConverter.raw],
                // [38, 'boost_timeset_countdown', tuya.valueConverter.countdown],
                // [39, 'Switch Scale', tuya.valueConverter.raw],
                // Did not work properly from Smart life also
                // [47, 'local_temperature_calibration', tuya.valueConverter.localTempCalibration1],
                // [48, 'valve_testing', tuya.valueConverter.raw],
                [49, "valve", tuya.valueConverter.trueFalseEnum0],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_tbgecldg", "_TZE284_tbgecldg", "_TZE200_tbgecldg"]),
        model: "PO-THCO-EAU",
        vendor: "Powernity",
        description: "Thermostat radiator valve",
        extend: [tuya.modernExtend.tuyaBase({dp: true, timeStart: "2000"})],
        exposes: [
            e.battery().withUnit("%"),
            e.child_lock(),
            e.comfort_temperature().withValueMin(0.5).withValueMax(29.5),
            e.eco_temperature().withValueMin(0.5).withValueMax(29.5),
            e.holiday_temperature().withValueMin(0.5).withValueMax(29.5),
            e
                .numeric("auto_temperature", ea.STATE_SET)
                .withDescription("Auto settings temperature")
                .withUnit("°C")
                .withValueMin(0.5)
                .withValueStep(0.5)
                .withValueMax(29.5),
            e
                .climate()
                .withPreset(["auto", "manual", "holiday"])
                .withLocalTemperatureCalibration(-5.5, 5.5, 0.1, ea.STATE_SET)
                .withLocalTemperature(ea.STATE)
                .withSetpoint("current_heating_setpoint", 0.5, 29.5, 0.5, ea.STATE_SET),
            e.binary("boost_heating", ea.STATE_SET, "ON", "OFF").withDescription("Boost Heating: the device will enter the boost heating mode."),
            e
                .numeric("boost_time", ea.STATE_SET)
                .withUnit("s")
                .withDescription(
                    "Setting " +
                        "minimum 0 - maximum 900 seconds boost time. The boost function is activated. The remaining " +
                        "time for the function will be counted down in seconds ( 900 to 0 ).",
                )
                .withValueMin(0)
                .withValueMax(900),
            e.binary("window_open", ea.STATE, "OPEN", "CLOSE").withDescription("Window status CLOSE or OPEN "),
            e.open_window_temperature().withValueMin(5).withValueMax(25),
            e
                .numeric("open_window_time", ea.STATE_SET)
                .withDescription(
                    "In the setting time, when the range of indoor temperature changes reaches the set range, the window opening reminder will be displayed",
                )
                .withUnit("minutes")
                .withValueMin(0)
                .withValueMax(60)
                .withValueStep(1),
            tuya.exposes.errorStatus(),
        ],
        meta: {
            tuyaDatapoints: [
                [
                    2,
                    "preset",
                    tuya.valueConverterBasic.lookup({
                        auto: tuya.enum(0),
                        manual: tuya.enum(1),
                        holiday: tuya.enum(2),
                    }),
                ],
                [16, "current_heating_setpoint", tuya.valueConverter.divideBy2],
                [24, "local_temperature", tuya.valueConverter.divideBy10],
                [30, "child_lock", tuya.valueConverter.lockUnlock],
                [34, "battery", tuya.valueConverterBasic.scale(0, 100, 50, 150)],
                [101, "comfort_temperature", tuya.valueConverter.divideBy2],
                [102, "eco_temperature", tuya.valueConverter.divideBy2],
                [103, "holiday_temperature", tuya.valueConverter.divideBy2],
                [104, "local_temperature_calibration", tuya.valueConverter.localTempCalibration1],
                [105, "auto_temperature", tuya.valueConverter.divideBy2],
                [106, "boost_heating", tuya.valueConverter.onOff],
                [107, "window_open", tuya.valueConverter.onOff],
                [116, "open_window_temperature", tuya.valueConverter.divideBy2],
                [117, "open_window_time", tuya.valueConverter.raw],
                [118, "boost_time", tuya.valueConverter.countdown],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", [
            "_TZE200_68nvbio9",
            "_TZE200_pw7mji0l",
            "_TZE200_cf1sl3tj",
            "_TZE200_nw1r9hp6",
            "_TZE200_9p5xmj5r",
            "_TZE200_eevqq1uv",
            "_TZE204_ejh6owwz",
            "_TZE200_ba69l9ol",
            "_TZE200_68nvbi09",
        ]),
        model: "TS0601_cover_3",
        vendor: "Tuya",
        description: "Cover motor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        options: [exposes.options.invert_cover()],
        exposes: [
            e.battery(),
            e.cover_position().setAccess("position", ea.STATE_SET),
            e.enum("reverse_direction", ea.STATE_SET, ["forward", "back"]).withDescription("Reverse the motor direction"),
            e.enum("border", ea.STATE_SET, ["up", "down", "up_delete", "down_delete", "remove_top_bottom"]),
            e.enum("click_control", ea.STATE_SET, ["up", "down"]).withDescription("Single motor steps"),
            e.binary("motor_fault", ea.STATE, true, false),
        ],
        whiteLabel: [
            tuya.whitelabel("Zemismart", "ZM16EL-03/33", "Cover motor", ["_TZE200_68nvbio9", "_TZE200_68nvbi09"]),
            tuya.whitelabel("Zemismart", "ZM25EL", "Cover motor", ["_TZE200_pw7mji0l"]),
            tuya.whitelabel("Zemismart", "ZM85EL-2Z", "Roman Rod I type U curtains track", ["_TZE200_cf1sl3tj", "_TZE200_nw1r9hp6"]),
            tuya.whitelabel("Hiladuo", "B09M3R35GC", "Motorized roller shade", ["_TZE200_9p5xmj5r"]),
        ],
        meta: {
            // All datapoints go in here
            tuyaDatapoints: [
                [
                    1,
                    "state",
                    tuya.valueConverterBasic.lookup({
                        OPEN: tuya.enum(0),
                        STOP: tuya.enum(1),
                        CLOSE: tuya.enum(2),
                    }),
                ],
                [2, "position", tuya.valueConverter.coverPosition],
                [3, "position", tuya.valueConverter.coverPosition],
                [
                    5,
                    "reverse_direction",
                    tuya.valueConverterBasic.lookup({
                        forward: tuya.enum(0),
                        back: tuya.enum(1),
                    }),
                ],
                [12, "motor_fault", tuya.valueConverter.trueFalse1],
                [13, "battery", tuya.valueConverter.raw],
                [
                    16,
                    "border",
                    tuya.valueConverterBasic.lookup({
                        up: tuya.enum(0),
                        down: tuya.enum(1),
                        up_delete: tuya.enum(2),
                        down_delete: tuya.enum(3),
                        remove_top_bottom: tuya.enum(4),
                    }),
                ],
                [
                    20,
                    "click_control",
                    tuya.valueConverterBasic.lookup({
                        up: tuya.enum(0),
                        down: tuya.enum(1),
                    }),
                ],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_zah67ekd", "_TZE200_icka1clh"]),
        model: "TS0601_cover_4",
        vendor: "Tuya",
        description: "Cover",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.cover_position().setAccess("position", ea.STATE_SET),
            e.enum("motor_direction", ea.STATE_SET, ["normal", "reversed"]).withDescription("Set the motor direction"),
            e.numeric("motor_speed", ea.STATE_SET).withValueMin(0).withValueMax(255).withDescription("Motor speed").withUnit("rpm"),
            e.enum("opening_mode", ea.STATE_SET, ["tilt", "lift"]).withDescription("Opening mode"),
            e.enum("set_upper_limit", ea.SET, ["SET"]).withDescription("Set the upper limit, to reset limits use factory_reset"),
            e.enum("set_bottom_limit", ea.SET, ["SET"]).withDescription("Set the bottom limit, to reset limits use factory_reset"),
            e.binary("factory_reset", ea.SET, true, false).withDescription("Factory reset the device"),
        ],
        whiteLabel: [tuya.whitelabel("Moes", "AM43-0.45/40-ES-EB", "Roller blind/shades drive motor", ["_TZE200_zah67ekd", "_TZE200_icka1clh"])],
        configure: (device, coordinatorEndpoint) => {
            device.powerSource = "Mains (single phase)";
            device.save();
        },
        meta: {
            tuyaDatapoints: [
                [
                    1,
                    "state",
                    tuya.valueConverterBasic.lookup({
                        OPEN: tuya.enum(0),
                        STOP: tuya.enum(1),
                        CLOSE: tuya.enum(2),
                    }),
                ],
                [2, "position", tuya.valueConverter.coverPosition],
                [3, "position", tuya.valueConverter.raw],
                [5, "motor_direction", tuya.valueConverter.tubularMotorDirection],
                [7, null, null], // work_state, not useful, ignore
                [
                    101,
                    "opening_mode",
                    tuya.valueConverterBasic.lookup({
                        tilt: tuya.enum(0),
                        lift: tuya.enum(1),
                    }),
                ],
                [102, "factory_reset", tuya.valueConverter.raw],
                [103, "set_upper_limit", tuya.valueConverter.setLimit],
                [104, "set_bottom_limit", tuya.valueConverter.setLimit],
                [105, "motor_speed", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", [
            "_TZE200_sur6q7ko" /* model: '3012732', vendor: 'LSC Smart Connect' */,
            "_TZE200_hue3yfsn" /* model: 'TV02-Zigbee', vendor: 'Tuya' */,
            "_TZE200_e9ba97vf" /* model: 'TV01-ZB', vendor: 'Moes' */,
            "_TZE200_husqqvux" /* model: 'TSL-TRV-TV01ZG', vendor: 'Tesla Smart' */,
            "_TZE200_lnbfnyxd" /* model: 'TSL-TRV-TV01ZG', vendor: 'Tesla Smart' */,
            "_TZE200_fsow0qsk" /* model: 'TSL-TRV-TV05ZG', vendor: 'Tesla Smart' */,
            "_TZE200_lllliz3p" /* model: 'TV02-Zigbee', vendor: 'Tuya' */,
            "_TZE200_mudxchsu" /* model: 'TV05-ZG curve', vendor: 'Tuya' */,
            "_TZE200_7yoranx2" /* model: 'TV01-ZB', vendor: 'Moes' */,
            "_TZE200_kds0pmmv",
            "_TZE200_py4cm3he" /* model: 'TV06-Zigbee', vendor: 'Tuya' */,
            "_TZE200_wsbfwodu" /* model: 'HA-08 THERMO', vendor: 'AlecoAir' */,
            "_TZE200_x9axofse" /* model: 'ZTRV-ZX-TV02', vendor: 'Moes' */,
            "_TZE200_lhzapfg9" /* model: 'ETT-8', vendor: 'EKF' */,
        ]),
        model: "TV02-Zigbee",
        vendor: "Tuya",
        description: "Thermostat radiator valve",
        whiteLabel: [
            {vendor: "Moes", model: "TV01-ZB"},
            {vendor: "AVATTO", model: "TRV06-1"},
            {vendor: "Tesla Smart", model: "TSL-TRV-TV01ZG"},
            {vendor: "Tesla Smart", model: "TSL-TRV-TV05ZG"},
            {vendor: "Unknown/id3.pl", model: "GTZ08"},
            tuya.whitelabel("Moes", "ZTRV-ZX-TV01-MS", "Thermostat radiator valve", ["_TZE200_7yoranx2"]),
            tuya.whitelabel("Moes", "TV01-ZB", "Thermostat radiator valve", ["_TZE200_e9ba97vf"]),
            tuya.whitelabel("AlecoAir", "HA-08_THERMO", "Thermostat radiator valve", ["_TZE200_wsbfwodu"]),
            tuya.whitelabel("GIEX", "TV06", "Thermostat radiator valve", ["_TZE200_py4cm3he"]),
            tuya.whitelabel("Moes", "ZTRV-ZX-TV02", "Thermostat radiator valve", ["_TZE200_x9axofse"]),
            tuya.whitelabel("EKF", "ETT-8", "Thermostat radiator valve", ["_TZE200_lhzapfg9"]),
        ],
        ota: true,
        extend: [tuya.modernExtend.tuyaBase({dp: true, forceTimeUpdates: true, timeStart: "1970"})],
        exposes: [
            e.battery_low(),
            e.child_lock(),
            e.open_window(),
            e.open_window_temperature().withValueMin(5).withValueMax(30),
            e.comfort_temperature().withValueMin(5).withValueMax(30),
            e.eco_temperature().withValueMin(5).withValueMax(30),
            e
                .climate()
                .withPreset(["auto", "manual", "holiday"])
                .withLocalTemperatureCalibration(-5, 5, 0.1, ea.STATE_SET)
                .withLocalTemperature(ea.STATE)
                .withSetpoint("current_heating_setpoint", 5, 30, 0.5, ea.STATE_SET)
                .withSystemMode(["off", "heat"], ea.STATE_SET, "Only for Homeassistant"),
            e
                .binary("heating_stop", ea.STATE_SET, "ON", "OFF")
                .withDescription(
                    "Battery life can be prolonged" +
                        " by switching the heating off. To achieve this, the valve is closed fully. To activate the " +
                        'heating stop, the device display "HS", press the pair button to cancel.',
                ),
            tuya.exposes.frostProtection(
                "When Anti-Freezing function is activated, the temperature in the house is kept " +
                    'at 8 °C, the device display "AF".press the pair button to cancel.',
            ),
            e
                .numeric("boost_timeset_countdown", ea.STATE_SET)
                .withUnit("s")
                .withDescription(
                    "Setting " +
                        "minimum 0 - maximum 465 seconds boost time. The boost (♨) function is activated. The remaining " +
                        "time for the function will be counted down in seconds ( 465 to 0 ).",
                )
                .withValueMin(0)
                .withValueMax(465),
            e.holiday_temperature().withValueMin(5).withValueMax(30),
            e
                .text("holiday_start_stop", ea.STATE_SET)
                .withDescription(
                    "The holiday mode will automatically start " +
                        "at the set time starting point and run the holiday temperature. Can be defined in the following format: " +
                        "`startYear/startMonth/startDay startHours:startMinutes | endYear/endMonth/endDay endHours:endMinutes`. " +
                        'For example: `2022/10/01 16:30 | 2022/10/21 18:10`. After the end of holiday mode, it switches to "auto" ' +
                        "mode and uses schedule.",
                ),
            e
                .enum("working_day", ea.STATE_SET, ["mon_sun", "mon_fri+sat+sun", "separate"])
                .withDescription(
                    "`mon_sun` " +
                        "- schedule for Monday used for each day (define it only for Monday). `mon_fri+sat+sun` - schedule for " +
                        "workdays used from Monday (define it only for Monday), Saturday and Sunday are defined separately. `separate` " +
                        "- schedule for each day is defined separately.",
                ),
            e
                .composite("schedule", "schedule", ea.SET)
                .withFeature(e.enum("week_day", ea.SET, ["monday", "tuesday", "wednesday", "thursday", "friday", "saturday", "sunday"]))
                .withFeature(e.text("schedule", ea.SET))
                .withDescription(
                    'Schedule will work with "auto" preset. In this mode, the device executes ' +
                        "a preset week programming temperature time and temperature. Before using these properties, check `working_day` " +
                        "property. Each day can contain up to 10 segments. At least 1 segment should be defined. Different count of segments " +
                        "can be defined for each day, e.g., 3 segments for Monday, 5 segments for Thursday, etc. It should be defined in the " +
                        "following format: `hours:minutes/temperature`. Minutes can be only tens, i.e., 00, 10, 20, 30, 40, 50. Segments should " +
                        "be divided by space symbol. Each day should end with the last segment of 24:00. Examples: `04:00/20 08:30/22 10:10/18 " +
                        "18:40/24 22:50/19.5`; `06:00/21.5 17:20/26 24:00/18`. The temperature will be set from the beginning/start of one " +
                        "period and until the next period, e.g., `04:00/20 24:00/22` means that from 00:00 to 04:00 temperature will be 20 " +
                        "degrees and from 04:00 to 00:00 temperature will be 22 degrees.",
                ),
            ...tuya.exposes.scheduleAllDays(ea.STATE, "HH:MM/C"),
            e.binary("online", ea.STATE_SET, "ON", "OFF").withDescription("The current data request from the device."),
            tuya.exposes.errorStatus(),
        ],
        meta: {
            tuyaDatapoints: [
                [2, "preset", tuya.valueConverter.tv02Preset()],
                [8, "open_window", tuya.valueConverter.onOff],
                [10, null, tuya.valueConverter.TV02FrostProtection],
                [10, "frost_protection", tuya.valueConverter.TV02FrostProtection],
                [16, "current_heating_setpoint", tuya.valueConverter.divideBy10],
                [24, "local_temperature", tuya.valueConverter.divideBy10],
                [27, "local_temperature_calibration", tuya.valueConverter.localTempCalibration1],
                [
                    31,
                    "working_day",
                    tuya.valueConverterBasic.lookup({
                        mon_sun: tuya.enum(0),
                        "mon_fri+sat+sun": tuya.enum(1),
                        separate: tuya.enum(2),
                    }),
                ],
                [32, "holiday_temperature", tuya.valueConverter.divideBy10],
                [35, "battery_low", tuya.valueConverter.trueFalse0],
                [40, "child_lock", tuya.valueConverter.lockUnlock],
                [45, "error_status", tuya.valueConverter.raw],
                [46, "holiday_start_stop", tuya.valueConverter.thermostatHolidayStartStop],
                [101, "boost_timeset_countdown", tuya.valueConverter.raw],
                [102, "open_window_temperature", tuya.valueConverter.divideBy10],
                [104, "comfort_temperature", tuya.valueConverter.divideBy10],
                [105, "eco_temperature", tuya.valueConverter.divideBy10],
                [106, "schedule", tuya.valueConverter.thermostatScheduleDaySingleDP],
                [107, null, tuya.valueConverter.TV02SystemMode],
                [107, "system_mode", tuya.valueConverter.TV02SystemMode],
                [107, "heating_stop", tuya.valueConverter.TV02SystemMode],
                [115, "online", tuya.valueConverter.onOffNotStrict],
                [108, "schedule_monday", tuya.valueConverter.thermostatScheduleDaySingleDP],
                [112, "schedule_tuesday", tuya.valueConverter.thermostatScheduleDaySingleDP],
                [109, "schedule_wednesday", tuya.valueConverter.thermostatScheduleDaySingleDP],
                [113, "schedule_thursday", tuya.valueConverter.thermostatScheduleDaySingleDP],
                [110, "schedule_friday", tuya.valueConverter.thermostatScheduleDaySingleDP],
                [114, "schedule_saturday", tuya.valueConverter.thermostatScheduleDaySingleDP],
                [111, "schedule_sunday", tuya.valueConverter.thermostatScheduleDaySingleDP],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_0hg58wyk" /* model: 'S366', vendor: 'Cloud Even' */]),
        model: "TS0601_thermostat_2",
        vendor: "Tuya",
        description: "Thermostat radiator valve",
        whiteLabel: [{vendor: "S366", model: "Cloud Even"}],
        extend: [tuya.modernExtend.tuyaBase({dp: true, forceTimeUpdates: true, timeStart: "1970"})],
        meta: {
            tuyaDatapoints: [
                [1, "system_mode", tuya.valueConverterBasic.lookup({heat: true, off: false})],
                [
                    2,
                    "preset",
                    tuya.valueConverterBasic.lookup({
                        manual: tuya.enum(0),
                        holiday: tuya.enum(1),
                        program: tuya.enum(2),
                    }),
                ],
                [3, null, null], // TODO: Unknown DP
                [8, "open_window", tuya.valueConverter.onOff],
                [10, "frost_protection", tuya.valueConverter.onOff],
                [16, "current_heating_setpoint", tuya.valueConverter.divideBy10],
                [24, "local_temperature", tuya.valueConverter.divideBy10],
                [27, "local_temperature_calibration", tuya.valueConverter.localTempCalibration1],
                [35, "battery_low", tuya.valueConverter.trueFalse0],
                [40, "child_lock", tuya.valueConverter.lockUnlock],
                [45, "error_status", tuya.valueConverter.raw],
                [101, "schedule_monday", tuya.valueConverter.thermostatScheduleDayMultiDP],
                [102, "schedule_tuesday", tuya.valueConverter.thermostatScheduleDayMultiDP],
                [103, "schedule_wednesday", tuya.valueConverter.thermostatScheduleDayMultiDP],
                [104, "schedule_thursday", tuya.valueConverter.thermostatScheduleDayMultiDP],
                [105, "schedule_friday", tuya.valueConverter.thermostatScheduleDayMultiDP],
                [106, "schedule_saturday", tuya.valueConverter.thermostatScheduleDayMultiDP],
                [107, "schedule_sunday", tuya.valueConverter.thermostatScheduleDayMultiDP],
            ],
        },
        exposes: [
            e.battery_low(),
            e.child_lock(),
            e.open_window(),
            tuya.exposes.frostProtection(),
            tuya.exposes.errorStatus(),
            e
                .climate()
                .withSystemMode(["off", "heat"], ea.STATE_SET)
                .withPreset(["manual", "holiday", "program"])
                .withLocalTemperatureCalibration(-5, 5, 0.1, ea.STATE_SET)
                .withLocalTemperature(ea.STATE)
                .withSetpoint("current_heating_setpoint", 5, 30, 0.5, ea.STATE_SET),
            ...tuya.exposes.scheduleAllDays(ea.STATE_SET, "HH:MM/C HH:MM/C HH:MM/C HH:MM/C"),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", [
            "_TZE200_bvu2wnxz" /* model: 'ME167', vendor: 'AVATTO' */,
            "_TZE200_6rdj8dzm" /* model: 'ME167', vendor: 'AVATTO' */,
            "_TZE200_9xfjixap" /* model: 'ME167', vendor: 'AVATTO' */,
            "_TZE200_jkfbph7l" /* model: 'ME167', vendor: 'AVATTO' */,
            "_TZE200_rxntag7i" /* model: 'ME168', vendor: 'AVATTO' */,
            "_TZE200_4utwozi2" /* model: 'ME167', vendor: 'AVATTO' */,
            "_TZE200_yqgbrdyo",
            "_TZE284_p3dbf6qs",
            "_TZE200_rxq4iti9",
            "_TZE204_ogx8u5z6",
            "_TZE200_4utwoz2",
            "_TZE284_ogx8u5z6",
            "_TZE200_hvaxb2tc" /* model: 'TRV06', vendor: 'AVATTO' */,
            "_TZE284_o3x45p96" /* model: 'TRV06', vendor: 'AVATTO' */,
            "_TZE284_c6wv4xyo" /* model: 'AVATTO_TRV06', vendor: 'AVATTO' */,
            "_TZE204_o3x45p96" /* model: 'AVATTO_TRV06', vendor: 'AVATTO' */,
            "_TZE200_ow09xlxm" /* model: 'TRV06-AT', vendor: 'THALEOS' */,
            "_TZE284_rv6iuyxb" /* model: 'TRV06-AT', vendor: 'THALEOS' */,
            "_TZE200_rv6iuyxb" /* model: 'TRV06-AT', vendor: 'THALEOS' */,
            "_TZE200_suxywabt" /* model: 'TRV06-AT', vendor: 'THALEOS' */,
            "_TZE200_d3z1ukqw" /* model: 'Eco-4160', vendor: 'Echos' */,
        ]),
        model: "TS0601_thermostat_3",
        vendor: "Tuya",
        description: "Thermostatic radiator valve",
        whiteLabel: [
            tuya.whitelabel("AVATTO", "ME167", "Thermostatic radiator valve", [
                "_TZE200_bvu2wnxz",
                "_TZE200_6rdj8dzm",
                "_TZE200_9xfjixap",
                "_TZE200_jkfbph7l",
                "_TZE200_4utwoz2",
                "_TZE200_4utwozi2",
            ]),
            tuya.whitelabel("AVATTO", "ME168_1", "Thermostatic radiator valve", ["_TZE200_rxntag7i"]),
            tuya.whitelabel("AVATTO", "TRV06_1", "Thermostatic radiator valve", ["_TZE200_hvaxb2tc", "_TZE284_o3x45p96"]),
            tuya.whitelabel("EARU", "TRV06", "Smart thermostat module", ["_TZE200_yqgbrdyo", "_TZE200_rxq4iti9"]),
            tuya.whitelabel("AVATTO", "AVATTO_TRV06", "Thermostatic radiator valve", ["_TZE284_c6wv4xyo", "_TZE204_o3x45p96"]),
            tuya.whitelabel("THALEOS", "TRV06-AT", "Thermostatic radiator valve", [
                "_TZE200_ow09xlxm",
                "_TZE284_rv6iuyxb",
                "_TZE200_rv6iuyxb",
                "_TZE200_suxywabt",
            ]),
            tuya.whitelabel("Echos", "Eco-4160", "Thermostatic radiator valve", ["_TZE200_d3z1ukqw"]),
        ],
        extend: [tuya.modernExtend.tuyaBase({dp: true, timeStart: "2000"})],
        exposes: [
            e.child_lock(),
            e.battery_low(),
            e
                .climate()
                .withSetpoint("current_heating_setpoint", 5, 35, 1, ea.STATE_SET)
                .withLocalTemperature(ea.STATE)
                .withSystemMode(["auto", "heat", "off"], ea.STATE_SET)
                .withRunningState(["idle", "heat"], ea.STATE)
                .withPiHeatingDemand()
                .withLocalTemperatureCalibration(-9, 9, 1, ea.STATE_SET),
            ...tuya.exposes.scheduleAllDays(ea.STATE_SET, "HH:MM/C HH:MM/C HH:MM/C HH:MM/C HH:MM/C HH:MM/C"),
            e
                .binary("scale_protection", ea.STATE_SET, "ON", "OFF")
                .withDescription(
                    "If the heat sink is not fully opened within " +
                        "two weeks or is not used for a long time, the valve will be blocked due to silting up and the heat sink will not be " +
                        "able to be used. To ensure normal use of the heat sink, the controller will automatically open the valve fully every " +
                        'two weeks. It will run for 30 seconds per time with the screen displaying "Ad", then return to its normal working state ' +
                        "again.",
                ),
            e
                .binary("frost_protection", ea.STATE_SET, "ON", "OFF")
                .withDescription(
                    "When the room temperature is lower than 5 °C, the valve opens; when the temperature rises to 8 °C, the valve closes.",
                ),
            e.numeric("error", ea.STATE).withDescription('If NTC is damaged, "Er" will be on the TRV display.'),
        ],
        meta: {
            tuyaDatapoints: [
                [
                    2,
                    "system_mode",
                    tuya.valueConverterBasic.lookup({
                        auto: tuya.enum(0),
                        heat: tuya.enum(1),
                        off: tuya.enum(2),
                    }),
                ],
                [
                    3,
                    "running_state",
                    tuya.valueConverterBasic.lookup({
                        heat: tuya.enum(0),
                        idle: tuya.enum(1),
                    }),
                ],
                [4, "current_heating_setpoint", tuya.valueConverter.divideBy10],
                [5, "local_temperature", tuya.valueConverter.divideBy10],
                [7, "child_lock", tuya.valueConverter.lockUnlock],
                [28, "schedule_monday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(1, 6)],
                [29, "schedule_tuesday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(2, 6)],
                [30, "schedule_wednesday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(3, 6)],
                [31, "schedule_thursday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(4, 6)],
                [32, "schedule_friday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(5, 6)],
                [33, "schedule_saturday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(6, 6)],
                [34, "schedule_sunday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(7, 6)],
                [35, null, tuya.valueConverter.errorOrBatteryLow],
                [36, "frost_protection", tuya.valueConverter.onOff],
                [39, "scale_protection", tuya.valueConverter.onOff],
                [47, "local_temperature_calibration", tuya.valueConverter.localTempCalibration2],
                [101, "pi_heating_demand", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_pcdmj88b", "_TZE284_pcdmj88b"]),
        model: "TS0601_thermostat_4",
        vendor: "Tuya",
        description: "Thermostatic radiator valve",
        extend: [tuya.modernExtend.tuyaBase({dp: true, forceTimeUpdates: true, timeStart: "1970"})],
        exposes: [
            e.child_lock(),
            e.battery(),
            e.battery_low(),
            e
                .climate()
                .withSetpoint("current_heating_setpoint", 5, 45, 0.5, ea.STATE_SET)
                .withLocalTemperature(ea.STATE)
                .withPreset(["schedule", "holiday", "manual", "comfort", "eco"])
                .withSystemMode(["off", "heat"], ea.STATE)
                .withLocalTemperatureCalibration(-12, 12, 1, ea.STATE_SET),
            ...tuya.exposes.scheduleAllDays(ea.STATE_SET, "HH:MM/C HH:MM/C HH:MM/C HH:MM/C HH:MM/C HH:MM/C"),
            e.holiday_temperature().withValueMin(5).withValueMax(45),
            e.comfort_temperature().withValueMin(5).withValueMax(45),
            e.eco_temperature().withValueMin(5).withValueMax(45),
            e
                .binary("scale_protection", ea.STATE_SET, "ON", "OFF")
                .withDescription(
                    "If the heat sink is not fully opened within " +
                        "two weeks or is not used for a long time, the valve will be blocked due to silting up and the heat sink will not be " +
                        "able to be used. To ensure normal use of the heat sink, the controller will automatically open the valve fully every " +
                        'two weeks. It will run for 30 seconds per time with the screen displaying "Ad", then return to its normal working state ' +
                        "again.",
                ),
            e
                .binary("frost_protection", ea.STATE_SET, "ON", "OFF")
                .withDescription(
                    "When the room temperature is lower than 5 °C, the valve opens; when the temperature rises to 8 °C, the valve closes.",
                ),
            e.numeric("error", ea.STATE).withDescription('If NTC is damaged, "Er" will be on the TRV display.'),
            e.binary("boost_heating", ea.STATE_SET, "ON", "OFF").withDescription("Boost Heating: the device will enter the boost heating mode."),
        ],
        meta: {
            tuyaDatapoints: [
                [
                    2,
                    "preset",
                    tuya.valueConverterBasic.lookup({
                        schedule: tuya.enum(0),
                        holiday: tuya.enum(1),
                        manual: tuya.enum(2),
                        comfort: tuya.enum(3),
                        eco: tuya.enum(4),
                    }),
                ],
                [4, "current_heating_setpoint", tuya.valueConverter.divideBy10],
                [5, "local_temperature", tuya.valueConverter.divideBy10],
                [6, "battery", tuya.valueConverter.raw],
                [7, "child_lock", tuya.valueConverter.lockUnlock],
                [21, "holiday_temperature", tuya.valueConverter.divideBy10],
                [24, "comfort_temperature", tuya.valueConverter.divideBy10],
                [25, "eco_temperature", tuya.valueConverter.divideBy10],
                [28, "schedule_monday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(1)],
                [29, "schedule_tuesday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(2)],
                [30, "schedule_wednesday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(3)],
                [31, "schedule_thursday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(4)],
                [32, "schedule_friday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(5)],
                [33, "schedule_saturday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(6)],
                [34, "schedule_sunday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(7)],
                [35, "fault_alarm", tuya.valueConverter.errorOrBatteryLow],
                [36, "frost_protection", tuya.valueConverter.onOff],
                [37, "boost_heating", tuya.valueConverter.onOff],
                [39, "scale_protection", tuya.valueConverter.onOff],
                [47, "local_temperature_calibration", tuya.valueConverter.localTempCalibration2],
                [
                    49,
                    "system_mode",
                    tuya.valueConverterBasic.lookup({
                        off: tuya.enum(0),
                        heat: tuya.enum(1),
                    }),
                ],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_p3dbf6qs" /* model: 'ME167_1', vendor: 'AVATTO' */]),
        model: "TS0601_thermostat_5",
        vendor: "Tuya",
        description: "Thermostatic radiator valve",
        whiteLabel: [tuya.whitelabel("AVATTO", "ME167_1", "Thermostatic radiator valve", ["_TZE200_p3dbf6qs"])],
        extend: [tuya.modernExtend.tuyaBase({dp: true, timeStart: "2000"})],
        exposes: [
            e.child_lock(),
            e.battery_low(),
            e
                .climate()
                .withSetpoint("current_heating_setpoint", 5, 35, 1, ea.STATE_SET)
                .withLocalTemperature(ea.STATE)
                .withSystemMode(["auto", "heat", "off"], ea.STATE_SET)
                .withRunningState(["idle", "heat"], ea.STATE)
                .withPiHeatingDemand()
                .withLocalTemperatureCalibration(-9, 9, 1, ea.STATE_SET),
            ...tuya.exposes.scheduleAllDays(ea.STATE_SET, "HH:MM/C HH:MM/C HH:MM/C HH:MM/C HH:MM/C HH:MM/C"),
            e
                .binary("scale_protection", ea.STATE_SET, "ON", "OFF")
                .withDescription(
                    "If the heat sink is not fully opened within " +
                        "two weeks or is not used for a long time, the valve will be blocked due to silting up and the heat sink will not be " +
                        "able to be used. To ensure normal use of the heat sink, the controller will automatically open the valve fully every " +
                        'two weeks. It will run for 30 seconds per time with the screen displaying "Ad", then return to its normal working state ' +
                        "again.",
                ),
            e
                .binary("frost_protection", ea.STATE_SET, "ON", "OFF")
                .withDescription(
                    "When the room temperature is lower than 5 °C, the valve opens; when the temperature rises to 8 °C, the valve closes.",
                ),
            e.numeric("error", ea.STATE).withDescription('If NTC is damaged, "Er" will be on the TRV display.'),
        ],
        meta: {
            tuyaDatapoints: [
                [
                    2,
                    "system_mode",
                    tuya.valueConverterBasic.lookup({
                        auto: tuya.enum(0),
                        heat: tuya.enum(1),
                        off: tuya.enum(2),
                    }),
                ],
                [
                    3,
                    "running_state",
                    tuya.valueConverterBasic.lookup({
                        heat: tuya.enum(0),
                        idle: tuya.enum(1),
                    }),
                ],
                [4, "current_heating_setpoint", tuya.valueConverter.divideBy10],
                [5, "local_temperature", tuya.valueConverter.divideBy10],
                [7, "child_lock", tuya.valueConverter.lockUnlock],
                [28, "schedule_wednesday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(1, 6)],
                [29, "schedule_thursday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(2, 6)],
                [30, "schedule_friday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(3, 6)],
                [31, "schedule_saturday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(4, 6)],
                [32, "schedule_sunday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(5, 6)],
                [33, "schedule_monday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(6, 6)],
                [34, "schedule_tuesday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(7, 6)],
                [35, null, tuya.valueConverter.errorOrBatteryLow],
                [36, "frost_protection", tuya.valueConverter.onOff],
                [39, "scale_protection", tuya.valueConverter.onOff],
                [47, "local_temperature_calibration", tuya.valueConverter.localTempCalibration2],
                [101, "pi_heating_demand", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: [...tuya.fingerprint("v90ladg\u0000", ["_TYST11_wv90ladg"]), ...tuya.fingerprint("TS0601", ["_TZE200_wv90ladg"])],
        model: "HT-08",
        vendor: "ETOP",
        description: "Wall-mount thermostat",
        fromZigbee: [legacy.fromZigbee.tuya_thermostat_weekly_schedule_2, legacy.fromZigbee.etop_thermostat, fz.ignore_tuya_set_time],
        toZigbee: [
            legacy.toZigbee.etop_thermostat_system_mode,
            legacy.toZigbee.etop_thermostat_away_mode,
            legacy.toZigbee.tuya_thermostat_child_lock,
            legacy.toZigbee.tuya_thermostat_current_heating_setpoint,
            legacy.toZigbee.tuya_thermostat_weekly_schedule,
        ],
        extend: [tuya.modernExtend.tuyaBase({timeStart: "2000"})],
        meta: {
            thermostat: {
                weeklyScheduleMaxTransitions: 4,
                weeklyScheduleSupportedModes: [1], // bits: 0-heat present, 1-cool present (dec: 1-heat,2-cool,3-heat+cool)
                weeklyScheduleFirstDayDpId: 101,
            },
        },
        exposes: [
            e.child_lock(),
            e.away_mode(),
            e
                .climate()
                .withSetpoint("current_heating_setpoint", 5, 35, 0.5, ea.STATE_SET)
                .withLocalTemperature(ea.STATE)
                .withSystemMode(["off", "heat", "auto"], ea.STATE_SET)
                .withRunningState(["idle", "heat"], ea.STATE),
        ],
    },
    {
        fingerprint: [...tuya.fingerprint("dpplnsn\u0000", ["_TYST11_2dpplnsn"]), ...tuya.fingerprint("TS0601", ["_TZE200_2dpplnsn"])],
        model: "HT-10",
        vendor: "ETOP",
        description: "Radiator valve",
        fromZigbee: [legacy.fromZigbee.tuya_thermostat_weekly_schedule_2, legacy.fromZigbee.etop_thermostat, fz.ignore_tuya_set_time],
        toZigbee: [
            legacy.toZigbee.etop_thermostat_system_mode,
            legacy.toZigbee.etop_thermostat_away_mode,
            legacy.toZigbee.tuya_thermostat_child_lock,
            legacy.toZigbee.tuya_thermostat_current_heating_setpoint,
            legacy.toZigbee.tuya_thermostat_weekly_schedule,
        ],
        extend: [tuya.modernExtend.tuyaBase({timeStart: "2000"})],
        meta: {
            timeout: 20000, // TRV wakes up every 10sec
            thermostat: {
                weeklyScheduleMaxTransitions: 4,
                weeklyScheduleSupportedModes: [1], // bits: 0-heat present, 1-cool present (dec: 1-heat,2-cool,3-heat+cool)
                weeklyScheduleFirstDayDpId: 101,
            },
        },
        exposes: [
            e.battery_low(),
            e.child_lock(),
            e.away_mode(),
            e
                .climate()
                .withSetpoint("current_heating_setpoint", 5, 35, 0.5, ea.STATE_SET)
                .withLocalTemperature(ea.STATE)
                .withSystemMode(["off", "heat", "auto"], ea.STATE_SET)
                .withRunningState(["idle", "heat"], ea.STATE),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_a4bpgplm", "_TZE200_dv8abrrz", "_TZE200_z1tyspqw", "_TZE200_bvrlmajk"]),
        model: "TS0601_thermostat_1",
        vendor: "Tuya",
        description: "Thermostatic radiator valve",
        whiteLabel: [
            tuya.whitelabel("id3", "GTZ06", "Thermostatic radiator valve", ["_TZE200_z1tyspqw"]),
            tuya.whitelabel("AVATTO", "TRV07", "Thermostatic radiator valve", ["_TZE200_bvrlmajk"]),
        ],
        extend: [tuya.modernExtend.tuyaBase({dp: true, forceTimeUpdates: true, timeStart: "1970"})],
        exposes: [
            e.battery(),
            e.child_lock(),
            e.max_temperature(),
            e.min_temperature(),
            e.position(),
            e.window_detection(),
            e.binary("window", ea.STATE, "CLOSE", "OPEN").withDescription("Window status closed or open "),
            e.binary("alarm_switch", ea.STATE, "ON", "OFF").withDescription("Thermostat in error state"),
            e
                .climate()
                .withLocalTemperature(ea.STATE)
                .withSetpoint("current_heating_setpoint", 5, 35, 0.5, ea.STATE_SET)
                .withLocalTemperatureCalibration(-30, 30, 0.1, ea.STATE_SET)
                .withPreset(
                    ["auto", "manual", "off", "on"],
                    "MANUAL MODE ☝ - In this mode, the device executes manual temperature setting. " +
                        'When the set temperature is lower than the "minimum temperature", the valve is closed (forced closed). ' +
                        "AUTO MODE ⏱ - In this mode, the device executes a preset week programming temperature time and temperature. " +
                        "ON - In this mode, the thermostat stays open " +
                        "OFF - In this mode, the thermostat stays closed",
                )
                .withSystemMode(["auto", "heat", "off"], ea.STATE)
                .withRunningState(["idle", "heat"], ea.STATE),
            e.enum("screen_orientation", ea.STATE_SET, ["up", "down"]).withDescription("How do you look at the display (up and down supported only)"),
            e
                .enum("display_brightness", ea.STATE_SET, ["high", "middle", "low"])
                .withDescription("How strong the LED diplay is light up (high is default)"),

            e
                .enum("mode", ea.STATE_SET, ["comfort", "eco"])
                .withDescription(
                    "Hysteresis - comfort > switches off/on exactly at reached " +
                        "temperature with valve smooth from 0 to 100%, eco > 0.5 degrees above or below, valve either 0 or 100%",
                ),
            e
                .numeric("switch_deviation_eco", ea.STATE_SET)
                .withValueMin(0.5)
                .withValueMax(5.0)
                .withValueStep(0.1)
                .withUnit("°C")
                .withDescription("Switch deviation (energy-saving mode only)"),
            ...tuya.exposes.scheduleAllDays(ea.STATE_SET, "HH:MM/C HH:MM/C HH:MM/C HH:MM/C"),
            e
                .binary("boost_heating", ea.STATE_SET, "ON", "OFF")
                .withDescription(
                    "Boost Heating: press and hold " +
                        " for 3 seconds, " +
                        "the device will enter the boost heating mode, and the ▷╵◁ will flash. The countdown will be displayed in the APP",
                ),
            e.numeric("boost_time", ea.STATE_SET).withUnit("min").withDescription("Countdown in minutes").withValueMin(0).withValueMax(1000),
        ],
        meta: {
            tuyaDatapoints: [
                [1, null, tuya.valueConverter.thermostatSystemModeAndPreset(null)],
                [1, "system_mode", tuya.valueConverter.thermostatSystemModeAndPreset("system_mode")],
                [1, "preset", tuya.valueConverter.thermostatSystemModeAndPreset("preset")],
                [2, "current_heating_setpoint", tuya.valueConverter.divideBy10],
                [3, "local_temperature", tuya.valueConverter.divideBy10],
                [4, "boost_heating", tuya.valueConverter.onOff],
                [5, "boost_time", tuya.valueConverter.countdown],
                [6, "running_state", tuya.valueConverterBasic.lookup({heat: 1, idle: 0})],
                [7, "window", tuya.valueConverterBasic.lookup({OPEN: 1, CLOSE: 0})],
                [8, "window_detection", tuya.valueConverter.onOff],
                [12, "child_lock", tuya.valueConverter.lockUnlock],
                [13, "battery", tuya.valueConverter.raw],
                [14, "alarm_switch", tuya.valueConverter.onOff],
                [15, "min_temperature", tuya.valueConverter.divideBy10],
                [16, "max_temperature", tuya.valueConverter.divideBy10],
                [17, "schedule_monday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(1)],
                [18, "schedule_tuesday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(2)],
                [19, "schedule_wednesday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(3)],
                [20, "schedule_thursday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(4)],
                [21, "schedule_friday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(5)],
                [22, "schedule_saturday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(6)],
                [23, "schedule_sunday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(7)],
                [101, "local_temperature_calibration", tuya.valueConverter.localTempCalibration1],
                [102, "position", tuya.valueConverter.divideBy10],
                [116, "screen_orientation", tuya.valueConverterBasic.lookup({up: tuya.enum(0), down: tuya.enum(2)})],
                [152, "display_brightness", tuya.valueConverterBasic.lookup({high: tuya.enum(0), middle: tuya.enum(1), low: tuya.enum(2)})],
                [153, "mode", tuya.valueConverterBasic.lookup({comfort: tuya.enum(0), eco: tuya.enum(1)})],
                [154, "switch_deviation_eco", tuya.valueConverter.divideBy10],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_rtrmfadk", "_TZE204_cvcu2p6e"]),
        model: "TRV601",
        vendor: "Tuya",
        whiteLabel: [
            tuya.whitelabel("Sber", "SBDV-00185", "Thermostatic radiator valve", ["_TZE204_cvcu2p6e"]),
            tuya.whitelabel("Moes", "TRV801_1", "Thermostatic radiator valve", ["_TZE204_rtrmfadk"]),
        ],
        description: "Thermostatic radiator valve",
        extend: [tuya.modernExtend.tuyaBase({dp: true, forceTimeUpdates: true, timeStart: "1970"})],
        exposes: [
            e.battery(),
            e.child_lock(),
            e.max_temperature(),
            e.min_temperature(),
            e.position(),
            e.window_detection(),
            e.binary("window", ea.STATE, "OPEN", "CLOSE").withDescription("Window status closed or open "),
            e.binary("alarm_switch", ea.STATE, "ON", "OFF").withDescription("Thermostat in error state"),
            e
                .climate()
                .withLocalTemperature(ea.STATE)
                .withSetpoint("current_heating_setpoint", 5, 35, 0.5, ea.STATE_SET)
                .withLocalTemperatureCalibration(-30, 30, 0.1, ea.STATE_SET)
                .withPreset(
                    ["auto", "manual", "off", "on"],
                    "MANUAL MODE ☝ - In this mode, the device executes manual temperature setting. " +
                        'When the set temperature is lower than the "minimum temperature", the valve is closed (forced closed). ' +
                        "AUTO MODE ⏱ - In this mode, the device executes a preset week programming temperature time and temperature. " +
                        "ON - In this mode, the thermostat stays open " +
                        "OFF - In this mode, the thermostat stays closed",
                )
                .withSystemMode(["auto", "heat", "off"], ea.STATE)
                .withRunningState(["idle", "heat"], ea.STATE),
            ...tuya.exposes.scheduleAllDays(ea.STATE_SET, "HH:MM/C HH:MM/C HH:MM/C HH:MM/C"),
            e.enum("screen_orientation", ea.STATE_SET, ["up", "down"]).withDescription("How do you look at the display (up and down supported only)"),
            e
                .enum("display_brightness", ea.STATE_SET, ["high", "middle", "low"])
                .withDescription("How strong the LED diplay is light up (high is default)"),

            e
                .enum("mode", ea.STATE_SET, ["comfort", "eco"])
                .withDescription(
                    "Hysteresis - comfort > switches off/on exactly at reached " +
                        "temperature with valve smooth from 0 to 100%, eco > 0.5 degrees above or below, valve either 0 or 100%",
                ),
            e
                .numeric("switch_deviation_eco", ea.STATE_SET)
                .withValueMin(0.5)
                .withValueMax(5.0)
                .withValueStep(0.1)
                .withUnit("°C")
                .withDescription("Switch deviation (energy-saving mode only)"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, null, tuya.valueConverter.thermostatSystemModeAndPreset(null)],
                [1, "system_mode", tuya.valueConverter.thermostatSystemModeAndPreset("system_mode")],
                [1, "preset", tuya.valueConverter.thermostatSystemModeAndPreset("preset")],
                [2, "current_heating_setpoint", tuya.valueConverter.divideBy10],
                [3, "local_temperature", tuya.valueConverter.divideBy10],
                [6, "running_state", tuya.valueConverterBasic.lookup({heat: 1, idle: 0})],
                [7, "window", tuya.valueConverterBasic.lookup({OPEN: 1, CLOSE: 0})],
                [8, "window_detection", tuya.valueConverter.onOff],
                [12, "child_lock", tuya.valueConverter.lockUnlock],
                [13, "battery", tuya.valueConverter.raw],
                [14, "alarm_switch", tuya.valueConverter.onOff],
                [15, "min_temperature", tuya.valueConverter.divideBy10],
                [16, "max_temperature", tuya.valueConverter.divideBy10],
                [17, "schedule_monday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(1)],
                [18, "schedule_tuesday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(2)],
                [19, "schedule_wednesday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(3)],
                [20, "schedule_thursday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(4)],
                [21, "schedule_friday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(5)],
                [22, "schedule_saturday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(6)],
                [23, "schedule_sunday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(7)],
                [101, "local_temperature_calibration", tuya.valueConverter.localTempCalibration1],
                [108, "position", tuya.valueConverter.divideBy10],
                [111, "display_brightness", tuya.valueConverterBasic.lookup({high: tuya.enum(0), middle: tuya.enum(1), low: tuya.enum(2)})],
                [113, "screen_orientation", tuya.valueConverterBasic.lookup({up: tuya.enum(0), down: tuya.enum(2)})],
                [114, "mode", tuya.valueConverterBasic.lookup({comfort: tuya.enum(0), eco: tuya.enum(1)})],
                [115, "switch_deviation_eco", tuya.valueConverter.divideBy10],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_9mjy74mp", "_TZE200_rtrmfadk", "_TZE200_9mjy74mp"]),
        model: "TRV602",
        vendor: "Tuya",
        description: "Thermostatic radiator valve.",
        whiteLabel: [tuya.whitelabel("Moes", "TRV801", "Thermostatic radiator valve", ["_TZE204_9mjy74mp", "_TZE200_9mjy74mp"])],
        extend: [tuya.modernExtend.tuyaBase({dp: true, forceTimeUpdates: true, timeStart: "1970"})],
        exposes: [
            e.battery(),
            e.child_lock(),
            e.max_temperature(),
            e.min_temperature(),
            e.position(),
            e.window_detection(),
            e.binary("window", ea.STATE, "OPEN", "CLOSE").withDescription("Window status closed or open "),
            e.binary("alarm_switch", ea.STATE, "ON", "OFF").withDescription("Thermostat in error state"),
            e
                .climate()
                .withLocalTemperature(ea.STATE)
                .withSetpoint("current_heating_setpoint", 5, 35, 0.5, ea.STATE_SET)
                .withLocalTemperatureCalibration(-30, 30, 0.1, ea.STATE_SET)
                .withPreset(
                    ["auto", "manual", "off", "on"],
                    "MANUAL MODE ☝ - In this mode, the device executes manual temperature setting. " +
                        'When the set temperature is lower than the "minimum temperature", the valve is closed (forced closed). ' +
                        "AUTO MODE ⏱ - In this mode, the device executes a preset week programming temperature time and temperature. " +
                        "ON - In this mode, the thermostat stays open " +
                        "OFF - In this mode, the thermostat stays closed",
                )
                .withSystemMode(["auto", "heat", "off"], ea.STATE)
                .withRunningState(["idle", "heat"], ea.STATE),
            ...tuya.exposes.scheduleAllDays(ea.STATE_SET, "HH:MM/C HH:MM/C HH:MM/C HH:MM/C"),
            e.enum("display_brightness", ea.STATE_SET, ["high", "medium", "low"]).withDescription("Display brightness"),
            e.enum("screen_orientation", ea.STATE_SET, ["up", "right", "down", "left"]).withDescription("Screen orientation"),
            e
                .enum("mode", ea.STATE_SET, ["comfort", "eco"])
                .withDescription(
                    "Hysteresis - comfort > switches off/on exactly at reached " +
                        "temperature with valve smooth from 0 to 100%, eco > 0.5 degrees above or below, valve either 0 or 100%",
                ),
        ],
        meta: {
            tuyaDatapoints: [
                [1, null, tuya.valueConverter.thermostatSystemModeAndPreset(null)],
                [1, "system_mode", tuya.valueConverter.thermostatSystemModeAndPreset("system_mode")],
                [1, "preset", tuya.valueConverter.thermostatSystemModeAndPreset("preset")],
                [2, "current_heating_setpoint", tuya.valueConverter.divideBy10],
                [3, "local_temperature", tuya.valueConverter.divideBy10],
                [6, "running_state", tuya.valueConverterBasic.lookup({heat: 1, idle: 0})],
                [7, "window", tuya.valueConverterBasic.lookup({OPEN: 1, CLOSE: 0})],
                [8, "window_detection", tuya.valueConverter.onOff],
                [12, "child_lock", tuya.valueConverter.lockUnlock],
                [13, "battery", tuya.valueConverter.raw],
                [14, "alarm_switch", tuya.valueConverter.onOff],
                [15, "min_temperature", tuya.valueConverter.divideBy10],
                [16, "max_temperature", tuya.valueConverter.divideBy10],
                [17, "schedule_monday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(1)],
                [18, "schedule_tuesday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(2)],
                [19, "schedule_wednesday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(3)],
                [20, "schedule_thursday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(4)],
                [21, "schedule_friday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(5)],
                [22, "schedule_saturday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(6)],
                [23, "schedule_sunday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(7)],
                [101, "local_temperature_calibration", tuya.valueConverter.localTempCalibration1],
                [108, "position", tuya.valueConverter.divideBy10],
                [
                    111,
                    "display_brightness",
                    tuya.valueConverterBasic.lookup({
                        high: tuya.enum(0),
                        medium: tuya.enum(1),
                        low: tuya.enum(2),
                    }),
                ],
                [
                    113,
                    "screen_orientation",
                    tuya.valueConverterBasic.lookup({
                        up: tuya.enum(0),
                        right: tuya.enum(1),
                        down: tuya.enum(2),
                        left: tuya.enum(3),
                    }),
                ],
                [
                    114,
                    "mode",
                    tuya.valueConverterBasic.lookup({
                        comfort: tuya.enum(0),
                        eco: tuya.enum(1),
                    }),
                ],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_qyr2m29i", "_TZE204_ltwbm23f", "_TZE284_ltwbm23f"]),
        model: "TRV602Z",
        vendor: "Tuya",
        description: "Thermostatic radiator valve.",
        whiteLabel: [tuya.whitelabel("Moes", "TRV801Z", "Thermostatic radiator valve", ["_TZE204_qyr2m29i", "_TZE284_ltwbm23f"])],
        // _TZE204_qyr2m29i requires 2000
        // https://github.com/Koenkk/zigbee2mqtt/issues/30054
        extend: [tuyaBase({dp: true, timeStart: "2000"})],
        exposes: [
            e.battery(),
            e.child_lock(),
            e.max_temperature(),
            e.min_temperature(),
            e.position(),
            e.window_detection(),
            e
                .numeric("boost_timeset_countdown", ea.STATE_SET)
                .withUnit("m")
                .withDescription(
                    "Setting " +
                        "minimum 0 - maximum 120 minutes boost time. The boost function is activated. The remaining " +
                        "time for the function will be counted down in minutes ( 120 to 0 ).",
                )
                .withValueMin(0)
                .withValueMax(120),
            e.binary("frost_protection", ea.STATE_SET, "ON", "OFF").withDescription("Antifreeze function"),
            e.binary("window", ea.STATE, "OPEN", "CLOSE").withDescription("Window status closed or open "),
            e
                .climate()
                .withLocalTemperature(ea.STATE)
                .withSetpoint("current_heating_setpoint", 5, 35, 0.5, ea.STATE_SET)
                .withLocalTemperatureCalibration(-10, 10, 0.1, ea.STATE_SET)
                .withPreset(["off", "antifrost", "eco", "comfort", "auto", "on"])
                .withRunningState(["idle", "heat"], ea.STATE)
                .withSystemMode(["auto", "heat", "off"], ea.STATE),
            ...tuya.exposes.scheduleAllDays(ea.STATE_SET, "HH:MM/C HH:MM/C HH:MM/C HH:MM/C HH:MM/C HH:MM/C"),
            e.comfort_temperature().withValueMin(5).withValueMax(30).withDescription("Comfort mode temperature"),
            e.eco_temperature().withValueMin(5).withValueMax(30).withDescription("Eco mode temperature"),
            e.holiday_temperature().withValueMin(5).withValueMax(30).withDescription("Antifreeze mode temperature"),
            e.enum("display_brightness", ea.STATE_SET, ["high", "medium", "low"]).withDescription("Display brightness"),
            e.enum("screen_orientation", ea.STATE_SET, ["up", "down"]).withDescription("Screen orientation"),
            e
                .enum("hysteresis", ea.STATE_SET, ["comfort", "eco"])
                .withDescription(
                    "Hysteresis - comfort > switches off/on exactly at reached " +
                        "temperature with valve smooth from 0 to 100%, eco > 0.5 degrees above or below, valve either 0 or 100%",
                ),
            e.enum("motor_thrust", ea.STATE_SET, ["strong", "middle", "weak"]),
        ],
        meta: {
            tuyaDatapoints: [
                [
                    2,
                    null,
                    tuya.valueConverter.thermostatSystemModeAndPresetMap({
                        fromMap: {
                            0: {deviceMode: "off", systemMode: "off", preset: "off"},
                            1: {deviceMode: "antifrost", systemMode: "auto", preset: "antifrost"},
                            2: {deviceMode: "eco", systemMode: "auto", preset: "eco"},
                            3: {deviceMode: "comfort", systemMode: "auto", preset: "comfort"},
                            4: {deviceMode: "auto", systemMode: "auto", preset: "auto"},
                            5: {deviceMode: "on", systemMode: "heat", preset: "on"},
                        },
                    }),
                ],
                [
                    2,
                    "preset",
                    tuya.valueConverter.thermostatSystemModeAndPresetMap({
                        toMap: {
                            off: new tuya.Enum(0),
                            antifrost: new tuya.Enum(1),
                            eco: new tuya.Enum(2),
                            comfort: new tuya.Enum(3),
                            auto: new tuya.Enum(4),
                            on: new tuya.Enum(5),
                        },
                    }),
                ],
                [
                    2,
                    "system_mode",
                    tuya.valueConverter.thermostatSystemModeAndPresetMap({
                        toMap: {
                            off: new tuya.Enum(0),
                            auto: new tuya.Enum(4),
                            heat: new tuya.Enum(5),
                        },
                    }),
                ],
                [3, "running_state", tuya.valueConverterBasic.lookup({heat: 1, idle: 0})],
                [4, "current_heating_setpoint", tuya.valueConverter.divideBy10],
                [5, "local_temperature", tuya.valueConverter.divideBy10],
                [6, "battery", tuya.valueConverter.raw],
                [
                    7,
                    "child_lock",
                    tuya.valueConverterBasic.lookup({
                        LOCK: true,
                        UNLOCK: false,
                    }),
                ],
                [9, "max_temperature", tuya.valueConverter.divideBy10],
                [10, "min_temperature", tuya.valueConverter.divideBy10],
                [
                    14,
                    "window_detection",
                    tuya.valueConverterBasic.lookup({
                        ON: true,
                        OFF: false,
                    }),
                ],
                [
                    15,
                    "window",
                    tuya.valueConverterBasic.lookup({
                        CLOSE: tuya.enum(0),
                        OPEN: tuya.enum(1),
                    }),
                ],
                [47, "local_temperature_calibration", tuya.valueConverter.localTempCalibration1],
                [102, "schedule_monday", tuya.valueConverter.thermostatScheduleDayMultiDP_TRV602Z_WithDayNumber(1)],
                [103, "schedule_tuesday", tuya.valueConverter.thermostatScheduleDayMultiDP_TRV602Z_WithDayNumber(2)],
                [104, "schedule_wednesday", tuya.valueConverter.thermostatScheduleDayMultiDP_TRV602Z_WithDayNumber(3)],
                [105, "schedule_thursday", tuya.valueConverter.thermostatScheduleDayMultiDP_TRV602Z_WithDayNumber(4)],
                [106, "schedule_friday", tuya.valueConverter.thermostatScheduleDayMultiDP_TRV602Z_WithDayNumber(5)],
                [107, "schedule_saturday", tuya.valueConverter.thermostatScheduleDayMultiDP_TRV602Z_WithDayNumber(6)],
                [108, "schedule_sunday", tuya.valueConverter.thermostatScheduleDayMultiDP_TRV602Z_WithDayNumber(7)],
                [
                    110,
                    "motor_thrust",
                    tuya.valueConverterBasic.lookup({
                        strong: tuya.enum(0),
                        middle: tuya.enum(1),
                        weak: tuya.enum(2),
                    }),
                ],
                [
                    111,
                    "display_brightness",
                    tuya.valueConverterBasic.lookup({
                        high: tuya.enum(0),
                        medium: tuya.enum(1),
                        low: tuya.enum(2),
                    }),
                ],
                [
                    113,
                    "screen_orientation",
                    tuya.valueConverterBasic.lookup({
                        up: tuya.enum(0),
                        down: tuya.enum(1),
                    }),
                ],
                [114, "position", tuya.valueConverter.divideBy10],
                [118, "boost_timeset_countdown", tuya.valueConverter.raw],
                [119, "comfort_temperature", tuya.valueConverter.divideBy10],
                [120, "eco_temperature", tuya.valueConverter.divideBy10],
                [121, "holiday_temperature", tuya.valueConverter.divideBy10],
                [122, "frost_protection", tuya.valueConverter.onOff],
                [
                    127,
                    "hysteresis",
                    tuya.valueConverterBasic.lookup({
                        comfort: tuya.enum(0),
                        eco: tuya.enum(1),
                    }),
                ],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_xalsoe3m"]),
        model: "ZHT-002",
        vendor: "Moes",
        description: "ZHT series thermostat",
        extend: [tuya.modernExtend.tuyaBase({dp: true, timeStart: "2000"})],
        exposes: [
            e.binary("state", ea.STATE_SET, "ON", "OFF").withDescription("Turn the thermostat ON/OFF"),
            e.child_lock(),
            e.binary("system_mode", ea.STATE_SET, "Auto", "Manual").withDescription("Manual = Manual or Schedule = Auto"),
            e.eco_mode(),
            e.temperature_sensor_select(["IN", "AL", "OU"]).withLabel("Sensor").withDescription("Choose which sensor to use. Default: AL"),
            e.enum("valve_state", ea.STATE, ["close", "open"]).withDescription("State of the valve"),
            e
                .text("workdays_schedule", ea.STATE_SET)
                .withDescription('Workdays schedule, 4 entries max, example: "06:00/20°C 11:20/22°C 16:59/15°C 22:00/25°C"'),
            e.min_temperature().withValueMin(0).withValueMax(20),
            e.max_temperature().withValueMin(20).withValueMax(50),
            e
                .climate()
                .withLocalTemperature(ea.STATE)
                .withSetpoint("current_heating_setpoint", 0, 50, 1, ea.STATE_SET)
                .withLocalTemperatureCalibration(-9, 9, 1, ea.STATE_SET),
            e
                .numeric("max_temperature_limit", ea.STATE_SET)
                .withDescription("Max temperature limit")
                .withValueMin(25)
                .withValueMax(70)
                .withValueStep(1),
            e
                .numeric("deadzone_temperature", ea.STATE_SET)
                .withValueMax(5)
                .withValueMin(1)
                .withValueStep(1)
                .withPreset("default", 1, "Default value")
                .withDescription("The difference between the local temperature that triggers heating and the set temperature"),

            e.enum("working_day", ea.STATE_SET, ["disabled", "5-2", "6-1", "7"]).withDescription("Workday setting"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "state", tuya.valueConverter.onOff],
                [
                    2,
                    "system_mode",
                    tuya.valueConverterBasic.lookup({
                        auto: tuya.enum(0),
                        manual: tuya.enum(1),
                    }),
                ],
                [16, "local_temperature", tuya.valueConverter.divideBy10],
                [18, "min_temperature", tuya.valueConverter.raw],
                [19, "local_temperature_calibration", tuya.valueConverter.localTemperatureCalibration],
                [
                    23,
                    "working_day",
                    tuya.valueConverterBasic.lookup((_, device) => {
                        if (device.manufacturerName === "_TZE204_xalsoe3m") {
                            return {
                                disabled: tuya.enum(0),
                                "5-2": tuya.enum(1),
                                "6-1": tuya.enum(2),
                                "7": tuya.enum(3),
                            };
                        }
                        return {
                            disabled: tuya.enum(0),
                            "5-2": tuya.enum(2),
                            "6-1": tuya.enum(1),
                            "7": tuya.enum(3),
                        };
                    }),
                ],
                [
                    32,
                    "sensor",
                    tuya.valueConverterBasic.lookup({
                        IN: tuya.enum(0),
                        AL: tuya.enum(2),
                        OU: tuya.enum(1),
                    }),
                ],
                [34, "max_temperature", tuya.valueConverter.raw],
                [39, "child_lock", tuya.valueConverter.lockUnlock],
                [40, "eco_mode", tuya.valueConverter.onOff],
                [
                    47,
                    "valve_state",
                    tuya.valueConverterBasic.lookup({
                        closed: tuya.enum(0),
                        open: tuya.enum(1),
                    }),
                ],
                [50, "current_heating_setpoint", tuya.valueConverter.raw],
                [68, "programming_mode", tuya.valueConverter.raw],
                [101, "max_temperature_limit", tuya.valueConverter.raw],
                [102, "deadzone_temperature", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE284_ymldrmzx"]),
        model: "TRV603-WZ",
        vendor: "Tuya",
        description: "Thermostatic radiator valve.",
        extend: [tuya.modernExtend.tuyaBase({dp: true, forceTimeUpdates: true, timeStart: "1970"})],
        exposes: [
            e.battery(),
            e.child_lock(),
            e.window_detection_bool(),
            e.window_open(),
            e
                .climate()
                .withSetpoint("current_heating_setpoint", 5, 35, 0.5, ea.STATE_SET)
                .withLocalTemperature(ea.STATE) // local_temperature
                .withLocalTemperatureCalibration(-7, 7, 0.5, ea.STATE_SET) // local_temperature_calibration
                .withSystemMode(["auto", "off"], ea.STATE_SET) // system_mode
                .withPreset(["schedule", "manual", "holiday"]), //preset
            e.comfort_temperature().withValueMin(15).withValueMax(35),
            e.eco_temperature().withValueMin(5).withValueMax(22),
            e.holiday_temperature().withValueMin(5).withValueMax(35),
            e.text("holiday_time", ea.STATE_SET).withDescription("Holiday start and end time in format YYYY/MM/DD HH:MM | YYYY/MM/DD HH:MM"),
            e.binary("boost_heating", ea.STATE_SET, "ON", "OFF"),
            e.numeric("boost_time", ea.STATE_SET).withUnit("min").withDescription("Countdown in minutes").withValueMin(0).withValueMax(30),
            e
                .binary("frost_protection", ea.STATE_SET, "ON", "OFF")
                .withDescription(
                    "When the room temperature is lower than 5 °C, the valve opens; when the temperature rises to 8 °C, the valve closes.",
                ),
            ...["monday", "tuesday", "wednesday", "thursday", "friday", "saturday", "sunday"].map((day) =>
                e.text(`schedule_${day}`, ea.STATE_SET).withDescription("Schedule in 8 segments format: HH:MM/TT.T HH:MM/TT.T ..."),
            ),
            e.enum("screen_orientation", ea.STATE_SET, ["up", "right", "down", "left"]).withDescription("Screen orientation"),
            e.numeric("fault_code", ea.STATE).withDescription("Raw fault code"),
        ],
        meta: {
            tuyaDatapoints: [
                [
                    2,
                    "preset",
                    tuya.valueConverterBasic.lookup({
                        schedule: tuya.enum(0),
                        holiday: tuya.enum(1), // only possible to set during holiday_time
                        manual: tuya.enum(2),
                    }),
                ],
                // when system_mode is 'off', current_heating_setpoint is set to -5000... hence limits
                [4, "current_heating_setpoint", tuya.valueConverterBasic.divideByWithLimits(10, 0, 35)],
                [5, "local_temperature", tuya.valueConverter.divideBy10],
                [6, "battery", tuya.valueConverter.raw],
                [
                    7,
                    "child_lock",
                    tuya.valueConverterBasic.lookup({
                        LOCK: true,
                        UNLOCK: false,
                    }),
                ],
                [14, "window_detection", tuya.valueConverter.raw],
                [15, "window_open", tuya.valueConverter.trueFalseEnum1],
                [21, "holiday_temperature", tuya.valueConverter.divideBy10],
                [36, "frost_protection", tuya.valueConverter.onOff],
                [39, "anti_scale", tuya.valueConverter.raw],
                [47, "local_temperature_calibration", tuya.valueConverter.localTempCalibration1], // duplicate/legacy
                [49, "valve_status", tuya.valueConverter.raw],
                [101, "boost_heating", tuya.valueConverter.onOff],
                [102, "boost_time", tuya.valueConverter.countdown],
                [103, "schedule_monday", tuya.valueConverter.thermostatScheduleDayMultiDP_TRV603WZ],
                [104, "schedule_tuesday", tuya.valueConverter.thermostatScheduleDayMultiDP_TRV603WZ],
                [105, "schedule_wednesday", tuya.valueConverter.thermostatScheduleDayMultiDP_TRV603WZ],
                [106, "schedule_thursday", tuya.valueConverter.thermostatScheduleDayMultiDP_TRV603WZ],
                [107, "schedule_friday", tuya.valueConverter.thermostatScheduleDayMultiDP_TRV603WZ],
                [108, "schedule_saturday", tuya.valueConverter.thermostatScheduleDayMultiDP_TRV603WZ],
                [109, "schedule_sunday", tuya.valueConverter.thermostatScheduleDayMultiDP_TRV603WZ],
                [110, "holiday_time", tuya.valueConverter.thermostatHolidayStartStopUnixTS],
                [
                    111,
                    "screen_orientation",
                    tuya.valueConverterBasic.lookup({
                        up: tuya.enum(0),
                        right: tuya.enum(1),
                        down: tuya.enum(2),
                        left: tuya.enum(3),
                    }),
                ],
                [112, "antifrost_temperature", tuya.valueConverter.divideBy10],
                [
                    113,
                    "system_mode",
                    tuya.valueConverterBasic.lookup({
                        auto: false,
                        off: true,
                    }),
                ],
                [114, "local_temperature_calibration", tuya.valueConverter.localTempCalibration1],
                [115, "programming_mode", tuya.valueConverter.raw],
                [116, "eco_temperature", tuya.valueConverter.divideBy10],
                [117, "comfort_temperature", tuya.valueConverter.divideBy10],
                [118, "fault_code", tuya.valueConverter.raw],
            ],
        },
    },
    {
        zigbeeModel: ["TS0121"],
        model: "TS0121_plug",
        description: "10A UK or 16A EU smart plug",
        whiteLabel: [
            {vendor: "BlitzWolf", model: "BW-SHP13"},
            {vendor: "Connecte", model: "4500990"},
            {vendor: "Connecte", model: "4500991"},
            {vendor: "Connecte", model: "4500992"},
            {vendor: "Connecte", model: "4500993"},
        ],
        vendor: "Tuya",
        fromZigbee: [fz.on_off, fz.electrical_measurement, fz.metering, tuya.fz.power_outage_memory, tuya.fz.indicator_mode],
        toZigbee: [tz.on_off, tuya.tz.power_on_behavior_1, tuya.tz.backlight_indicator_mode_1],
        configure: async (device, coordinatorEndpoint) => {
            const endpoint = device.getEndpoint(1);
            await reporting.bind(endpoint, coordinatorEndpoint, ["genOnOff", "haElectricalMeasurement", "seMetering"]);
            endpoint.saveClusterAttributeKeyValue("seMetering", {
                divisor: 100,
                multiplier: 1,
            });
            endpoint.saveClusterAttributeKeyValue("haElectricalMeasurement", {
                acVoltageMultiplier: 1,
                acVoltageDivisor: 1,
                acCurrentMultiplier: 1,
                acCurrentDivisor: 1000,
                acPowerMultiplier: 1,
                acPowerDivisor: 1,
            });
            try {
                await reporting.currentSummDelivered(endpoint);
                await reporting.rmsVoltage(endpoint, {change: 5});
                await reporting.rmsCurrent(endpoint, {change: 50});
                await reporting.activePower(endpoint, {change: 10});
            } catch {
                /* fails for some https://github.com/Koenkk/zigbee2mqtt/issues/11179
                                and https://github.com/Koenkk/zigbee2mqtt/issues/16864 */
            }
            await endpoint.read("genOnOff", ["onOff", "moesStartUpOnOff", "tuyaBacklightMode"]);
        },
        // This device doesn't support reporting correctly.
        // https://github.com/Koenkk/zigbee-herdsman-converters/pull/1270
        exposes: [
            e.switch(),
            e.power(),
            e.current(),
            e.voltage(),
            e.energy(),
            e.enum("power_outage_memory", ea.ALL, ["on", "off", "restore"]).withDescription("Recover state after power outage"),
            e.enum("indicator_mode", ea.ALL, ["off", "off/on", "on/off"]).withDescription("LED indicator mode"),
        ],
        extend: [tuya.modernExtend.electricityMeasurementPoll()],
    },
    {
        fingerprint: tuya.fingerprint("TS0111", ["_TYZB01_ymcdbl3u"]),
        model: "TS0111_valve",
        vendor: "Tuya",
        whiteLabel: [{vendor: "Tuya", model: "SM-AW713Z"}],
        description: "Smart water/gas valve",
        extend: [tuya.modernExtend.tuyaOnOff({indicatorMode: true})],
    },
    {
        // Note: below you will find the TS011F_plug_2 and TS011F_plug_3. These are identified via a fingerprint and
        // thus preferred above the TS011F_plug_1 if the fingerprint matches
        zigbeeModel: ["TS011F"],
        model: "TS011F_plug_1",
        description: "Smart plug (with power monitoring)",
        vendor: "Tuya",
        whiteLabel: [
            {vendor: "LELLKI", model: "TS011F_plug"},
            {vendor: "BlitzWolf", model: "BW-SHP15"},
            {vendor: "BlitzWolf", model: "BW-SHP13"},
            {vendor: "MatSee Plus", model: "PJ-ZSW01"},
            {vendor: "MODEMIX", model: "MOD037"},
            {vendor: "MODEMIX", model: "MOD048"},
            {vendor: "Coswall", model: "CS-AJ-DE2U-ZG-11"},
            {vendor: "Aubess", model: "TS011F_plug_1"},
            tuya.whitelabel("BSEED", "TS011F_plug_1_2", "Wall-mounted electrical EU/FR/UK socket with power monitoring", [
                "_TZ3000_4ux0ondb",
                "_TZ3000_b28wrpvx",
                "_TZ3000_2uollq9d",
            ]),
            tuya.whitelabel("BSEED", "_TZ3210_5ct6e7ye", "Wall-mounted electrical EU/FR/UK socket with power monitoring and USB", [
                "_TZ3210_5ct6e7ye",
            ]),
            tuya.whitelabel("Nous", "A1Z", "Smart plug (with power monitoring)", ["_TZ3000_2putqrmw", "_TZ3000_ksw8qtmt"]),
            tuya.whitelabel("Moes", "Moes_plug", "Smart plug (with power monitoring)", ["_TZ3000_yujkchbz"]),
            tuya.whitelabel("Moes", "ZK-EU", "Smart wallsocket (with power monitoring)", ["_TZ3000_ss98ec5d"]),
            tuya.whitelabel("Elivco", "LSPA9", "Smart plug (with power monitoring)", ["_TZ3000_okaz9tjs"]),
            tuya.whitelabel("PSMART", "T440", "Smart wallsocket (with power monitoring)", ["_TZ3000_y4ona9me"]),
            tuya.whitelabel("Nous", "A6Z", "Outdoor smart socket", ["_TZ3000_266azbg3"]),
            tuya.whitelabel("Nedis", "ZBPO130FWT", "Outdoor smart plug (with power monitoring)", ["_TZ3000_3ias4w4o"]),
            tuya.whitelabel("Nous", "A9Z", "Smart Zigbee Socket", ["_TZ3210_ddigca5n"]),
            tuya.whitelabel("Girier", "JR-ZPM01", "Smart Plug", ["_TZ3000_ww6drja5"]),
            tuya.whitelabel("Nous", "A7Z", "Smart Zigbee Socket", ["_TZ3210_rwmitwj4"]),
            tuya.whitelabel("Zbeacon", "TS011F_plug_1_1", "Smart plug (with power monitoring)", ["Zbeacon"]),
            tuya.whitelabel("NEO", "NAS-WR01B", "Smart plug (with electrical measurements)", ["_TZ3000_gjnozsaz"]),
            tuya.whitelabel("GreenSun", "HSC-ZW-EU", "Outdoor Smart Plug (with power monitoring)", ["_TZ3000_cicwjqth"]),
            tuya.whitelabel("Nous", "A10Z", "Smart Zigbee Socket", ["_TZ3210_jlf1nepw"]),
            tuya.whitelabel("MatSee Plus", "PJ-MINI-ZSW01", "Smart Socket Switch Module (with power monitoring)", ["_TZ3000_cjrngdr3"]),
            tuya.whitelabel("BlitzWolf", "BW-SHP13", "Smart plug (with power monitoring)", ["_TZ3000_amdymr7l"]),
        ],
        ota: true,
        extend: [
            tuya.modernExtend.tuyaOnOff({
                electricalMeasurements: true,
                electricalMeasurementsFzConverter: fzLocal.TS011F_electrical_measurement,

                // Conditional features
                powerOutageMemory: (manufacturerName) => manufacturerName !== "_TZ3000_cicwjqth",
                indicatorMode: (manufacturerName) => manufacturerName !== "_TZ3000_ww6drja5",
                childLock: (manufacturerName) => manufacturerName !== "_TZ3000_cicwjqth",
                onOffCountdown: (manufacturerName) => manufacturerName !== "_TZ3000_cicwjqth",
            }),
        ],
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            const endpoint = device.getEndpoint(1);
            await reporting.bind(endpoint, coordinatorEndpoint, ["genOnOff", "haElectricalMeasurement", "seMetering"]);

            if (!["_TZ3000_okaz9tjs"].includes(device.manufacturerName)) {
                // https://github.com/Koenkk/zigbee2mqtt/issues/29034
                await reporting.currentSummDelivered(endpoint);
                await reporting.rmsVoltage(endpoint, {change: 5});
                await reporting.rmsCurrent(endpoint, {change: 50});
            }

            if (
                !["_TZ3000_0zfrhq4i", "_TZ3000_okaz9tjs", "_TZ3000_typdpbpg", "_TZ3000_ww6drja5", "Zbeacon", "_TZ3000_cicwjqth"].includes(
                    device.manufacturerName,
                )
            ) {
                // Gives INVALID_DATA_TYPE error for _TZ3000_0zfrhq4i (as well as a few others in issue 20028)
                // https://github.com/Koenkk/zigbee2mqtt/discussions/19680#discussioncomment-7667035
                // Don't do this for `_TZ3000_gjnozsaz` (was previously in the list, but removed after:
                // https://github.com/Koenkk/zigbee2mqtt/issues/28729#issuecomment-3370261334
                await reporting.activePower(endpoint, {change: 10});
            }

            const acCurrentDivisor = ["_TZ3000_typdpbpg"].includes(device.manufacturerName) ? 2000 : 1000;
            endpoint.saveClusterAttributeKeyValue("haElectricalMeasurement", {
                acCurrentDivisor,
                acCurrentMultiplier: 1,
            });
            endpoint.saveClusterAttributeKeyValue("seMetering", {
                divisor: 100,
                multiplier: 1,
            });
            utils.attachOutputCluster(device, "genOta");
            device.save();
        },
    },
    {
        fingerprint: tuya.fingerprint("TS011F", [
            "_TZ3000_hyfvrar3",
            "_TZ3000_v1pdxuqq",
            "_TZ3000_8a833yls",
            "_TZ3000_bfn1w0mm",
            "_TZ3000_nzkqcvvs",
            "_TZ3000_rtcrrvia",
            "_TZ3000_ysiog9xi",
            "_TZ3000_o1jzcxou",
        ]),
        model: "TS011F_plug_2",
        description: "Smart plug (without power monitoring)",
        vendor: "Tuya",
        whiteLabel: [tuya.whitelabel("BSEED", "_TZ3000_o1jzcxou", "Wall-mounted electrical EU/FR/UK socket", ["_TZ3000_o1jzcxou"])],
        extend: [
            tuya.modernExtend.tuyaOnOff({
                powerOutageMemory: true,
                indicatorMode: true,
                childLock: true,
                onOffCountdown: true,
            }),
        ],
        configure: async (device, coordinatorEndpoint) => {
            const endpoint = device.getEndpoint(1);
            await reporting.bind(endpoint, coordinatorEndpoint, ["genOnOff"]);
        },
    },
    {
        zigbeeModel: ["SM0212"],
        model: "SM0212",
        vendor: "Tuya",
        description: "Gas sensor",
        extend: [m.iasZoneAlarm({zoneType: "gas", zoneAttributes: ["alarm_1", "alarm_2", "tamper", "battery_low"]})],
    },
    {
        fingerprint: [
            {modelID: "TS011F", applicationVersion: 192, manufacturerName: "_TZ3000_2uollq9d", priority: -1},
            {modelID: "TS011F", applicationVersion: 160, priority: -1},
            {modelID: "TS011F", applicationVersion: 100, priority: -1},
            {modelID: "TS011F", applicationVersion: 69, priority: -1},
            {modelID: "TS011F", applicationVersion: 68, priority: -1},
            {modelID: "TS011F", applicationVersion: 65, priority: -1},
            {modelID: "TS011F", applicationVersion: 64, priority: -1},
            {modelID: "TS011F", softwareBuildID: "1.0.5\u0000", manufacturerName: "_TZ3000_cehuw1lw", priority: -1},
        ],
        model: "TS011F_plug_3",
        description: "Smart plug (with power monitoring by polling)",
        vendor: "Tuya",
        whiteLabel: [
            {vendor: "VIKEFON", model: "TS011F"},
            {vendor: "BlitzWolf", model: "BW-SHP15"},
            {vendor: "AVATTO", model: "MIUCOT10Z"},
            {vendor: "NEO", model: "PLUG-001SPB2"},
            tuya.whitelabel("BSEED", "TS011F_plug_3_1", "Wall-mounted electrical EU/FR/UK socket with power monitoring", ["_TZ3000_2uollq9d"]),
            tuya.whitelabel("Nous", "A6Z_polling", "Outdoor smart socket", ["_TZ3000_266azbg3"]),
        ],
        ota: true,
        extend: [
            tuya.modernExtend.tuyaOnOff({
                electricalMeasurements: true,
                powerOutageMemory: true,
                onOffCountdown: true,
                indicatorMode: true,
                childLock: true,
            }),
            tuya.modernExtend.electricityMeasurementPoll({
                metering: (device) => [100, 160, 192].includes(device.applicationVersion) || ["1.0.5\u0000"].includes(device.softwareBuildID), // polling for energy
            }),
        ],
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            const endpoint = device.getEndpoint(1);
            endpoint.saveClusterAttributeKeyValue("haElectricalMeasurement", {
                acCurrentDivisor: 1000,
                acCurrentMultiplier: 1,
            });
            endpoint.saveClusterAttributeKeyValue("seMetering", {
                divisor: 100,
                multiplier: 1,
            });
            utils.attachOutputCluster(device, "genOta");
            device.save();
        },
    },
    {
        fingerprint: tuya.fingerprint("TS011F", ["_TZ3000_in5s3wn1", "_TZ3000_wbloefbf"]),
        model: "TS011F_switch_5_gang",
        description: "2 gang 2 usb 1 wall ac outlet",
        whiteLabel: [{vendor: "Milfra", model: "M11Z"}],
        vendor: "Tuya",
        extend: [
            tuya.modernExtend.tuyaOnOff({
                powerOutageMemory: true,
                childLock: true,
                endpoints: ["l1", "l2", "l3", "l4", "l5"],
            }),
        ],
        endpoint: (device) => {
            return {l1: 1, l2: 2, l3: 3, l4: 4, l5: 5};
        },
        meta: {multiEndpoint: true},
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            await reporting.bind(device.getEndpoint(1), coordinatorEndpoint, ["genOnOff"]);
            await reporting.bind(device.getEndpoint(2), coordinatorEndpoint, ["genOnOff"]);
            await reporting.bind(device.getEndpoint(3), coordinatorEndpoint, ["genOnOff"]);
            await reporting.bind(device.getEndpoint(4), coordinatorEndpoint, ["genOnOff"]);
            await reporting.bind(device.getEndpoint(5), coordinatorEndpoint, ["genOnOff"]);
        },
    },
    {
        fingerprint: tuya.fingerprint("TS011F", ["_TZ3000_dlug3kbc"]),
        model: "TS011F_3_gang",
        description: "3 gang wall ac outlet",
        vendor: "Tuya",
        extend: [
            tuya.modernExtend.tuyaOnOff({
                powerOutageMemory: true,
                childLock: true,
                endpoints: ["l1", "l2", "l3"],
            }),
        ],
        endpoint: (device) => {
            return {l1: 1, l2: 2, l3: 3, l4: 4, l5: 5};
        },
        meta: {multiEndpoint: true},
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            for (const ep of [1, 2, 3]) {
                await reporting.bind(device.getEndpoint(ep), coordinatorEndpoint, ["genOnOff"]);
            }
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_0zaf1cr8", "_TZE204_ntcy3xu1", "_TZE284_0zaf1cr8"]),
        model: "TS0601_smoke_1",
        vendor: "Tuya",
        description: "Smoke sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [e.smoke(), e.tamper(), e.battery_low()],
        meta: {
            tuyaDatapoints: [
                [1, "smoke", tuya.valueConverter.trueFalse0],
                [4, "tamper", tuya.valueConverter.raw],
                [14, "battery_low", tuya.valueConverter.trueFalse0],
            ],
        },
        whiteLabel: [tuya.whitelabel("Nous", "E8", "Smoke sensor", ["_TZE200_0zaf1cr8", "_TZE284_0zaf1cr8"])],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_ntcy3xu1"]),
        model: "TS0601_smoke_6",
        vendor: "Tuya",
        description: "Smoke sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [e.smoke(), e.tamper(), tuya.exposes.batteryState()],
        meta: {
            tuyaDatapoints: [
                [1, "smoke", tuya.valueConverter.trueFalse0],
                [4, "tamper", tuya.valueConverter.raw],
                [14, "battery_state", tuya.valueConverter.batteryState],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE284_ai4rqhky"]),
        model: "HS2SA-1",
        vendor: "Heiman",
        description: "Photoelectric Smoke Alarm",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.smoke(),
            e.battery(),
            tuya.exposes.batteryState(),
            e.binary("silence", ea.STATE_SET, "ON", "OFF"),
            e.enum("self_test", ea.STATE, ["checking", "check_success", "check_failure"]),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "smoke", tuya.valueConverter.trueFalse0],
                [9, "self_test", tuya.valueConverterBasic.lookup({checking: 0, check_success: 1, check_failure: 2})],
                [14, "battery_state", tuya.valueConverter.batteryState],
                [15, "battery", tuya.valueConverter.raw],
                [16, "silence", tuya.valueConverter.onOff],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_m9skfctm", "_TZE200_rccxox8p", "_TZE284_rccxox8p"]),
        model: "PA-44Z",
        vendor: "Tuya",
        description: "Photoelectric smoke detector",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.smoke(),
            e.battery(),
            tuya.exposes.silence(),
            e.test(),
            e.numeric("smoke_concentration", ea.STATE).withUnit("ppm").withDescription("Parts per million of smoke detected"),
            e.binary("device_fault", ea.STATE, true, false).withDescription("Indicates a fault with the device"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "smoke", tuya.valueConverter.trueFalse0],
                [2, "smoke_concentration", tuya.valueConverter.divideBy10],
                [11, "device_fault", tuya.valueConverter.raw],
                [15, "battery", tuya.valueConverter.raw],
                [16, "silence", tuya.valueConverter.raw],
                [101, "test", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_ux5v4dbd"]),
        vendor: "Tuya",
        model: "TS0601_smoke_3",
        description: "Photoelectric smoke detector",
        whiteLabel: [{vendor: "KnockautX", model: "SMOAL024"}],
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [e.smoke(), tuya.exposes.batteryState()],
        meta: {
            tuyaDatapoints: [
                /**
                 * According to the Vendor "KnockautX / Brelag AG" DP 16 "muffling"
                 * is supported as well. But it was not possible to verify this using
                 * SMOLA024 devices - therefore it is not included in the device definition.
                 *
                 * Data Transfer Type: Send and Report
                 * Data Type: Bool
                 * muffling: 16,
                 */
                [1, "smoke", tuya.valueConverter.trueFalse0],
                [14, "battery_state", tuya.valueConverter.batteryState],
            ],
        },
    },
    {
        zigbeeModel: ["5p1vj8r"],
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_t5p1vj8r", "_TZE200_uebojraa", "_TZE200_vzekyi4c", "_TZE200_yh7aoahi", "_TZE200_dq1mfjug"]),
        model: "TS0601_smoke_4",
        vendor: "Tuya",
        description: "Smoke sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [e.smoke(), e.battery(), tuya.exposes.batteryState()],
        meta: {
            tuyaDatapoints: [
                [1, "smoke", tuya.valueConverter.trueFalse0],
                [14, "battery_state", tuya.valueConverter.batteryState],
                [15, "battery", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_ytibqbra"]),
        model: "TS0601_smoke_5",
        vendor: "Tuya",
        description: "Smoke sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.smoke(),
            e.tamper(),
            e.battery(),
            tuya.exposes.faultAlarm(),
            tuya.exposes.silence(),
            e.binary("alarm", ea.STATE_SET, "ON", "OFF").withDescription("Enable the alarm"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "smoke", tuya.valueConverter.trueFalse0],
                [4, "tamper", tuya.valueConverter.raw],
                [11, "fault_alarm", tuya.valueConverter.trueFalse1],
                [15, "battery", tuya.valueConverter.raw],
                [16, "silence", tuya.valueConverter.raw],
                [17, "alarm", tuya.valueConverter.onOff],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE284_o9ofysmo", "_TZE284_xc3vwx5a"]),
        model: "ZS-301Z",
        vendor: "Arteco",
        description: "Soil moisture sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.enum("battery_state", ea.STATE, ["low", "middle", "high"]).withDescription("low: 1-25%, middle: 26-50%, high: 51-100%"),
            e.temperature(),
            e.soil_moisture(),
            e.humidity(),
            e.illuminance(),
            e
                .numeric("humidity_calibration", ea.STATE_SET)
                .withUnit("%")
                .withDescription("Adjust humidity")
                .withValueMin(-30)
                .withValueMax(30)
                .withValueStep(1),
            e
                .numeric("report_interval", ea.STATE_SET)
                .withUnit("s")
                .withDescription("Report interval")
                .withValueMin(30)
                .withValueMax(1200)
                .withValueStep(30),
        ],
        meta: {
            tuyaDatapoints: [
                [3, "soil_moisture", tuya.valueConverter.raw],
                [5, "temperature", tuya.valueConverter.divideBy10],
                [14, "battery_state", tuya.valueConverterBasic.lookup({low: tuya.enum(0), middle: tuya.enum(1), high: tuya.enum(2)})],
                [101, "humidity", tuya.valueConverter.raw],
                [102, "illuminance", tuya.valueConverter.raw],
                [103, "humidity_calibration", tuya.valueConverter.raw],
                [104, "report_interval", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_e2bedvo9", "_TZE200_dnz6yvl2", "_TZE284_e2bedvo9"]),
        model: "ZSS-QY-SSD-A-EN",
        vendor: "Tuya",
        description: "Smart smoke alarm",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.smoke(),
            tuya.exposes.faultAlarm(),
            tuya.exposes.batteryState(),
            e.battery(),
            tuya.exposes.silence(),
            tuya.exposes.selfTest(),
            e.numeric("smoke_concentration", ea.STATE).withUnit("ppm").withDescription("Parts per million of smoke detected"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "smoke", tuya.valueConverter.trueFalse0],
                [2, "smoke_concentration", tuya.valueConverter.divideBy10],
                [11, "fault_alarm", tuya.valueConverter.trueFalse1],
                [14, "battery_state", tuya.valueConverter.batteryState],
                [15, "battery", tuya.valueConverter.raw],
                [16, "silence", tuya.valueConverter.raw],
                [17, "self_test", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE284_6ycgarab"]),
        model: "TS0601_smoke_co",
        vendor: "Tuya",
        description: "Dual smoke CO sensor",
        exposes: [
            e.smoke(),
            e
                .enum("smoke_state", ea.STATE, ["alarm", "none", "detecting", "unknown"])
                .withLabel("Smoke sensor status")
                .withDescription("Possible states: alarm, none, detecting, unknown"),
            e.enum("alarm_volume", ea.STATE_SET, ["mute", "low", "medium", "high"]).withDescription("Alarm volume"),
            e.battery(),
            tuya.exposes.silence(),
            e.binary("alarm_switch", ea.STATE_SET, true, false).withDescription("Disable the alarm"),
            e.carbon_monoxide(),
        ],
        meta: {
            tuyaDatapoints: [
                [
                    1,
                    null,
                    {
                        from: (v: number) => {
                            const lookup = {alarm: tuya.enum(0), none: tuya.enum(1), detecting: tuya.enum(2), unknown: tuya.enum(3)};
                            const smokeState = Object.entries(lookup).find((i) => i[1].valueOf() === v)[0];
                            return {
                                smoke: smokeState === "alarm",
                                smoke_state: smokeState,
                            };
                        },
                    },
                ],
                [
                    5,
                    "alarm_volume",
                    tuya.valueConverterBasic.lookup({
                        low: tuya.enum(0),
                        medium: tuya.enum(1),
                        high: tuya.enum(2),
                        mute: tuya.enum(3),
                    }),
                ],
                [15, "battery", tuya.valueConverter.raw],
                [16, "silence", tuya.valueConverter.raw],
                [17, "alarm_switch", tuya.valueConverter.raw],
                [18, "carbon_monoxide", tuya.valueConverter.trueFalseEnum0],
            ],
        },
        extend: [
            tuya.modernExtend.tuyaBase({
                dp: true,
                bindBasicOnConfigure: true,
                queryOnDeviceAnnounce: true,
                queryOnConfigure: true,
                forceTimeUpdates: true,
            }),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_5d3vhjro"]),
        model: "SA12IZL",
        vendor: "Tuya",
        description: "Smart smoke alarm",
        meta: {timeout: 30000, disableDefaultResponse: true},
        fromZigbee: [legacy.fromZigbee.SA12IZL],
        toZigbee: [legacy.toZigbee.SA12IZL_silence_siren, legacy.toZigbee.SA12IZL_alarm],
        exposes: [
            e.battery(),
            e.binary("smoke", ea.STATE, true, false).withDescription("Smoke alarm status"),
            e.enum("battery_level", ea.STATE, ["low", "middle", "high"]).withDescription("Battery level state"),
            e.binary("alarm", ea.STATE_SET, true, false).withDescription("Enable the alarm"),
            e.binary("silence_siren", ea.STATE_SET, true, false).withDescription("Silence the siren"),
        ],
        extend: [tuya.modernExtend.tuyaBase()],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_cjbofhxw", "_TZE284_cjbofhxw"]),
        model: "PJ-MGW1203",
        vendor: "Tuya",
        description: "Clamp meter",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [e.current(), e.power(), e.voltage(), e.energy()],
        meta: {
            tuyaDatapoints: [
                [18, "current", tuya.valueConverter.divideBy1000],
                [19, "power", tuya.valueConverter.divideBy10],
                [20, "voltage", tuya.valueConverter.divideBy10],
                [101, "energy", tuya.valueConverter.divideBy1000],
            ],
        },
        whiteLabel: [tuya.whitelabel("Tuya", "PJ-1203-W", "Electricity energy monitor", ["_TZE284_cjbofhxw"])],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_bkkmqmyo", "_TZE200_eaac7dkw", "_TZE204_bkkmqmyo"]),
        model: "TS0601_din_1",
        vendor: "Tuya",
        description: "Zigbee DIN energy meter",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            tuya.exposes.switch(),
            e.ac_frequency(),
            e.energy(),
            e.power(),
            e.power_factor().withUnit("%"),
            e.voltage(),
            e.current(),
            e.produced_energy(),
            e.power_reactive(),
            e.numeric("energy_reactive", ea.STATE).withUnit("kVArh").withDescription("Sum of reactive energy"),
            e.numeric("total_energy", ea.STATE).withUnit("kWh").withDescription("Total consumed and produced energy"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "energy", tuya.valueConverter.divideBy100],
                [6, null, tuya.valueConverter.phaseVariant1], // voltage and current
                [16, "state", tuya.valueConverter.onOff],
                [101, "total_energy", tuya.valueConverter.divideBy100], // total energy produced + consumed
                [102, "produced_energy", tuya.valueConverter.divideBy100],
                [103, "power", tuya.valueConverter.raw],
                [105, "ac_frequency", tuya.valueConverter.divideBy100],
                [109, "energy_reactive", tuya.valueConverter.divideBy100], // reactive energy in VArh
                [110, "power_reactive", tuya.valueConverter.raw], // reactive power
                [111, "power_factor", tuya.valueConverter.divideBy10],
                // Ignored for now; we don't know what the values mean
                [9, null, null], // Fault - we don't know the possible values here
                [17, null, null], // Alarm set1 - value seems garbage "AAAAAAAAAAAAAABkAAEOAACqAAAAAAAKAAAAAAAA"
                [18, null, null], // 18 - Alarm set2 - value seems garbage "AAUAZAAFAB4APAAAAAAAAAA="
            ],
        },
        whiteLabel: [
            {vendor: "Tuya", model: "RC-MCB"},
            tuya.whitelabel("Hiking", "DDS238-2", "Single phase DIN-rail energy meter with switch function", [
                "_TZE200_bkkmqmyo",
                "_TZE204_bkkmqmyo",
            ]),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_m64smti7"]),
        model: "RMDZB-1PNL63",
        vendor: "TNCE",
        description: "Zigbee DIN single phase energy meter",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            tuya.exposes.switch(),
            e.energy(),
            e
                .enum("fault", ea.STATE, [
                    "clear",
                    "short_circuit_alarm",
                    "surge_alarm",
                    "overload_alarm",
                    "leakagecurr_alarm",
                    "temp_dif_fault",
                    "fire_alarm",
                    "high_power_alarm",
                    "self_test_alarm",
                    "ov_cr",
                    "unbalance_alarm",
                    "ov_vol",
                    "undervoltage_alarm",
                    "miss_phase_alarm",
                    "outage_alarm",
                    "magnetism_alarm",
                    "credit_alarm",
                    "no_balance_alarm",
                ])
                .withDescription("Fault status of the device (clear = nothing)"),
            tuya.exposes.voltageWithPhase("a"),
            tuya.exposes.powerWithPhase("a"),
            tuya.exposes.currentWithPhase("a"),
            e.temperature(),
            e
                .binary("over_current_breaker", ea.STATE_SET, "ON", "OFF")
                .withDescription("OFF - alarm only, ON - relay will turn off when threshold reached"),
            e
                .numeric("over_current_threshold", ea.STATE_SET)
                .withUnit("A")
                .withDescription("Setup the value on the device")
                .withValueMin(1)
                .withValueMax(63),
            e
                .binary("over_voltage_breaker", ea.STATE_SET, "ON", "OFF")
                .withDescription("OFF - alarm only, ON - relay will turn off when threshold reached"),
            e
                .numeric("over_voltage_threshold", ea.STATE_SET)
                .withUnit("V")
                .withDescription("Setup value on the device")
                .withValueMin(250)
                .withValueMax(300),
            e
                .binary("under_voltage_breaker", ea.STATE_SET, "ON", "OFF")
                .withDescription("OFF - alarm only, ON - relay will turn off when threshold reached"),
            e
                .numeric("under_voltage_threshold", ea.STATE_SET)
                .withUnit("V")
                .withDescription("Setup value on the device")
                .withValueMin(150)
                .withValueMax(200),
            e
                .binary("high_temperature_breaker", ea.STATE_SET, "ON", "OFF")
                .withDescription("OFF - alarm only, ON - relay will turn off when threshold reached"),
            e
                .numeric("high_temperature_threshold", ea.STATE_SET)
                .withUnit("°C")
                .withDescription("Setup value on the device")
                .withValueMin(40)
                .withValueMax(100),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "energy", tuya.valueConverter.divideBy100],
                [6, null, tuya.valueConverter.phaseVariant2WithPhase("a")],
                [
                    9,
                    "fault",
                    tuya.valueConverterBasic.lookup({
                        clear: 0,
                        short_circuit_alarm: 1,
                        surge_alarm: 2,
                        overload_alarm: 4,
                        leakagecurr_alarm: 8,
                        temp_dif_fault: 16,
                        fire_alarm: 32,
                        high_power_alarm: 64,
                        self_test_alarm: 128,
                        ov_cr: 256,
                        unbalance_alarm: 512,
                        ov_vol: 1024,
                        undervoltage_alarm: 2048,
                        miss_phase_alarm: 4096,
                        outage_alarm: 8192,
                        magnetism_alarm: 16384,
                        credit_alarm: 32768,
                        no_balance_alarm: 65536,
                    }),
                ],
                [16, "state", tuya.valueConverter.onOff],
                [17, null, tuya.valueConverter.threshold_2],
                [17, "high_temperature_threshold", tuya.valueConverter.threshold_2],
                [17, "high_temperature_breaker", tuya.valueConverter.threshold_2],
                [18, null, tuya.valueConverter.threshold_3],
                [18, "over_current_threshold", tuya.valueConverter.threshold_3],
                [18, "over_current_breaker", tuya.valueConverter.threshold_3],
                [18, "over_voltage_threshold", tuya.valueConverter.threshold_3],
                [18, "over_voltage_breaker", tuya.valueConverter.threshold_3],
                [18, "under_voltage_threshold", tuya.valueConverter.threshold_3],
                [18, "under_voltage_breaker", tuya.valueConverter.threshold_3],
                [103, "temperature", tuya.valueConverter.raw],
                // Ignored for now; we don't know what the values mean
                [11, null, null], // Switch prepayment
                [12, null, null], // Energy reset
                [13, null, null], // Balance enertgy
                [14, null, null], // Charge energy
                [105, null, null], // Countdown
                [106, null, null], // Cycle time
            ],
        },
        whiteLabel: [{vendor: "TNCE", model: "RMDZB-1PNL63"}],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_wbhaespm", "_TZE200_wbhaespm", "_TZE284_wbhaespm"]),
        model: "STB3L-125-ZJ",
        vendor: "SUTON",
        description: "Zigbee DIN RCBO energy meter",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            tuya.exposes.switch(),
            e.energy(),
            e
                .enum("fault", ea.STATE, [
                    "clear",
                    "short_circuit_alarm",
                    "surge_alarm",
                    "overload_alarm",
                    "leakagecurr_alarm",
                    "temp_dif_fault",
                    "fire_alarm",
                    "high_power_alarm",
                    "self_test_alarm",
                    "ov_cr",
                    "unbalance_alarm",
                    "ov_vol",
                    "undervoltage_alarm",
                    "miss_phase_alarm",
                    "outage_alarm",
                    "magnetism_alarm",
                    "credit_alarm",
                    "no_balance_alarm",
                ])
                .withDescription("Fault status of the device (clear = nothing)"),
            tuya.exposes.voltageWithPhase("a"),
            tuya.exposes.voltageWithPhase("b"),
            tuya.exposes.voltageWithPhase("c"),
            tuya.exposes.powerWithPhase("a"),
            tuya.exposes.powerWithPhase("b"),
            tuya.exposes.powerWithPhase("c"),
            tuya.exposes.currentWithPhase("a"),
            tuya.exposes.currentWithPhase("b"),
            tuya.exposes.currentWithPhase("c"),
            e.temperature(),
            e.binary("leakage_test", ea.STATE_SET, "ON", "OFF").withDescription("Turn ON to perform a leagage test"),
            e
                .binary("over_current_breaker", ea.STATE_SET, "ON", "OFF")
                .withDescription("OFF - alarm only, ON - relay will turn off when threshold reached"),
            e
                .numeric("over_current_threshold", ea.STATE_SET)
                .withUnit("A")
                .withDescription("Setup the value on the device")
                .withValueMin(1)
                .withValueMax(63),
            e
                .binary("over_voltage_breaker", ea.STATE_SET, "ON", "OFF")
                .withDescription("OFF - alarm only, ON - relay will turn off when threshold reached"),
            e
                .numeric("over_voltage_threshold", ea.STATE_SET)
                .withUnit("V")
                .withDescription("Setup value on the device")
                .withValueMin(250)
                .withValueMax(300),
            e
                .binary("under_voltage_breaker", ea.STATE_SET, "ON", "OFF")
                .withDescription("OFF - alarm only, ON - relay will turn off when threshold reached"),
            e
                .numeric("under_voltage_threshold", ea.STATE_SET)
                .withUnit("V")
                .withDescription("Setup value on the device")
                .withValueMin(150)
                .withValueMax(200),
            e
                .binary("insufficient_balance_breaker", ea.STATE_SET, "ON", "OFF")
                .withDescription("OFF - alarm only, ON - relay will turn off when threshold reached"),
            e
                .numeric("insufficient_balance_threshold", ea.STATE_SET)
                .withUnit("kWh")
                .withDescription("Setup value on the device")
                .withValueMin(1)
                .withValueMax(65535),
            e
                .binary("overload_breaker", ea.STATE_SET, "ON", "OFF")
                .withDescription("OFF - alarm only, ON - relay will turn off when threshold reached"),
            e
                .numeric("overload_threshold", ea.STATE_SET)
                .withUnit("kW")
                .withDescription("Setup value on the device")
                .withValueMin(1)
                .withValueMax(25),
            e
                .binary("leakage_breaker", ea.STATE_SET, "ON", "OFF")
                .withDescription("OFF - alarm only, ON - relay will turn off when threshold reached"),
            e
                .numeric("leakage_threshold", ea.STATE_SET)
                .withUnit("mA")
                .withDescription("Setup value on the device")
                .withValueMin(10)
                .withValueMax(90),
            e
                .binary("high_temperature_breaker", ea.STATE_SET, "ON", "OFF")
                .withDescription("OFF - alarm only, ON - relay will turn off when threshold reached"),
            e
                .numeric("high_temperature_threshold", ea.STATE_SET)
                .withUnit("°C")
                .withDescription("Setup value on the device")
                .withValueMin(40)
                .withValueMax(100),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "energy", tuya.valueConverter.divideBy100],
                [6, null, tuya.valueConverter.phaseVariant2WithPhase("a")],
                [7, null, tuya.valueConverter.phaseVariant2WithPhase("b")],
                [8, null, tuya.valueConverter.phaseVariant2WithPhase("c")],
                [
                    9,
                    "fault",
                    tuya.valueConverterBasic.lookup({
                        clear: 0,
                        short_circuit_alarm: 1,
                        surge_alarm: 2,
                        overload_alarm: 4,
                        leakagecurr_alarm: 8,
                        temp_dif_fault: 16,
                        fire_alarm: 32,
                        high_power_alarm: 64,
                        self_test_alarm: 128,
                        ov_cr: 256,
                        unbalance_alarm: 512,
                        ov_vol: 1024,
                        undervoltage_alarm: 2048,
                        miss_phase_alarm: 4096,
                        outage_alarm: 8192,
                        magnetism_alarm: 16384,
                        credit_alarm: 32768,
                        no_balance_alarm: 65536,
                    }),
                ],
                [16, "state", tuya.valueConverter.onOff],
                [17, null, tuya.valueConverter.threshold_2],
                [17, "overload_breaker", tuya.valueConverter.threshold_2],
                [17, "overload_threshold", tuya.valueConverter.threshold_2],
                [17, "leakage_threshold", tuya.valueConverter.threshold_2],
                [17, "leakage_breaker", tuya.valueConverter.threshold_2],
                [17, "high_temperature_threshold", tuya.valueConverter.threshold_2],
                [17, "high_temperature_breaker", tuya.valueConverter.threshold_2],
                [18, null, tuya.valueConverter.threshold_3],
                [18, "over_current_threshold", tuya.valueConverter.threshold_3],
                [18, "over_current_breaker", tuya.valueConverter.threshold_3],
                [18, "over_voltage_threshold", tuya.valueConverter.threshold_3],
                [18, "over_voltage_breaker", tuya.valueConverter.threshold_3],
                [18, "under_voltage_threshold", tuya.valueConverter.threshold_3],
                [18, "under_voltage_breaker", tuya.valueConverter.threshold_3],
                [18, "insufficient_balance_threshold", tuya.valueConverter.threshold_3],
                [18, "insufficient_balance_breaker", tuya.valueConverter.threshold_3],
                [21, "leakage_test", tuya.valueConverter.onOff], // Leakage test
                [102, "temperature", tuya.valueConverter.divideBy10],
                // Ignored for now; we don't know what the values mean
                [12, null, null], // Clear energy`
                [13, null, null],
                [14, null, null], // Leakage current
                [15, null, null],
            ],
        },
        whiteLabel: [{vendor: "SUTON", model: "STB3L-125/ZJ"}],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_lsanae15", "_TZE204_lsanae15"]),
        model: "TS0601_din_2",
        vendor: "Tuya",
        description: "Zigbee DIN energy meter",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            tuya.exposes.switch(),
            e.energy(),
            e.power(),
            e.voltage(),
            e.current(),
            e
                .enum("fault", ea.STATE, [
                    "clear",
                    "over_current_threshold",
                    "over_power_threshold",
                    "over_voltage threshold",
                    "wrong_frequency_threshold",
                ])
                .withDescription("Fault status of the device (clear = nothing)"),
            e.enum("threshold_1", ea.STATE, ["not_set", "over_current_threshold", "over_voltage_threshold"]).withDescription("State of threshold_1"),
            e
                .binary("threshold_1_protection", ea.STATE, "ON", "OFF")
                .withDescription("OFF - alarm only, ON - relay will be off when threshold reached"),
            e
                .numeric("threshold_1_value", ea.STATE)
                .withDescription("Can be in Volt or Ampere depending on threshold setting. Setup the value on the device"),
            e.enum("threshold_2", ea.STATE, ["not_set", "over_current_threshold", "over_voltage_threshold"]).withDescription("State of threshold_2"),
            e
                .binary("threshold_2_protection", ea.STATE, "ON", "OFF")
                .withDescription("OFF - alarm only, ON - relay will be off when threshold reached"),
            e.numeric("threshold_2_value", ea.STATE).withDescription("Setup value on the device"),
            e.binary("clear_fault", ea.STATE_SET, "ON", "OFF").withDescription("Turn ON to clear last the fault"),
            e.text("meter_id", ea.STATE).withDescription("Meter ID (ID of device)"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "energy", tuya.valueConverter.divideBy100],
                [3, null, null], // Monthly, but sends data only after request
                [4, null, null], // Dayly, but sends data only after request
                [6, null, tuya.valueConverter.phaseVariant2], // voltage and current
                [
                    10,
                    "fault",
                    tuya.valueConverterBasic.lookup({
                        clear: 0,
                        over_current_threshold: 1,
                        over_power_threshold: 2,
                        over_voltage_threshold: 4,
                        wrong_frequency_threshold: 8,
                    }),
                ],
                [11, null, null], // Frozen - strange function, in native app - nothing is clear
                [16, "state", tuya.valueConverter.onOff],
                [17, null, tuya.valueConverter.threshold], // It's settable, but can't write converter
                [18, "meter_id", tuya.valueConverter.raw],
                [20, "clear_fault", tuya.valueConverter.onOff], // Clear fault
                [21, null, null], // Forward Energy T1 - don't know what this
                [22, null, null], // Forward Energy T2 - don't know what this
                [23, null, null], // Forward Energy T3 - don't know what this
                [24, null, null], // Forward Energy T4 - don't know what this
            ],
        },
        whiteLabel: [tuya.whitelabel("MatSee Plus", "DAC2161C", "Smart Zigbee energy meter 80A din rail", ["_TZE200_lsanae15", "_TZE204_lsanae15"])],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_rhblgy0z", "_TZE204_rhblgy0z"]),
        model: "TS0601_din_3",
        vendor: "Tuya",
        description: "Zigbee DIN energy meter",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        whiteLabel: [{vendor: "XOCA", model: "DAC2161C"}],
        exposes: [
            tuya.exposes.switch(),
            e.energy(),
            e.produced_energy(),
            e.power(),
            e.voltage(),
            e.current(),
            e
                .enum("fault", ea.STATE, [
                    "clear",
                    "over_current_threshold",
                    "over_power_threshold",
                    "over_voltage threshold",
                    "wrong_frequency_threshold",
                ])
                .withDescription("Fault status of the device (clear = nothing)"),
            e.enum("threshold_1", ea.STATE, ["not_set", "over_current_threshold", "over_voltage_threshold"]).withDescription("State of threshold_1"),
            e
                .binary("threshold_1_protection", ea.STATE, "ON", "OFF")
                .withDescription("OFF - alarm only, ON - relay will be off when threshold reached"),
            e
                .numeric("threshold_1_value", ea.STATE)
                .withDescription("Can be in Volt or Ampere depending on threshold setting. Setup the value on the device"),
            e.enum("threshold_2", ea.STATE, ["not_set", "over_current_threshold", "over_voltage_threshold"]).withDescription("State of threshold_2"),
            e
                .binary("threshold_2_protection", ea.STATE, "ON", "OFF")
                .withDescription("OFF - alarm only, ON - relay will be off when threshold reached"),
            e.numeric("threshold_2_value", ea.STATE).withDescription("Setup value on the device"),
            e.binary("clear_fault", ea.STATE_SET, "ON", "OFF").withDescription("Turn ON to clear last the fault"),
            e.text("meter_id", ea.STATE).withDescription("Meter ID (ID of device)"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "energy", tuya.valueConverter.divideBy100],
                [2, "produced_energy", tuya.valueConverter.divideBy100],
                [3, null, null], // Monthly, but sends data only after request
                [4, null, null], // Dayly, but sends data only after request
                [6, null, tuya.valueConverter.phaseVariant2], // voltage and current
                [
                    10,
                    "fault",
                    tuya.valueConverterBasic.lookup({
                        clear: 0,
                        over_current_threshold: 1,
                        over_power_threshold: 2,
                        over_voltage_threshold: 4,
                        wrong_frequency_threshold: 8,
                    }),
                ],
                [11, null, null], // Frozen - strange function, in native app - nothing is clear
                [16, "state", tuya.valueConverter.onOff],
                [17, null, tuya.valueConverter.threshold], // It's settable, but can't write converter
                [18, "meter_id", tuya.valueConverter.raw],
                [20, "clear_fault", tuya.valueConverter.onOff], // Clear fault
                [21, null, null], // Forward Energy T1 - don't know what this
                [22, null, null], // Forward Energy T2 - don't know what this
                [23, null, null], // Forward Energy T3 - don't know what this
                [24, null, null], // Forward Energy T4 - don't know what this
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_byzdayie", "_TZE200_fsb6zw01", "_TZE200_ewxhg6o9"]),
        model: "TS0601_din",
        vendor: "Tuya",
        description: "Zigbee smart energy meter DDS238-2 Zigbee",
        fromZigbee: [legacy.fromZigbee.tuya_dinrail_switch],
        toZigbee: [legacy.toZigbee.tuya_switch_state],
        configure: async (device, coordinatorEndpoint) => {
            const endpoint = device.getEndpoint(1);
            await reporting.bind(endpoint, coordinatorEndpoint, ["genOnOff"]);
        },
        exposes: [e.switch().setAccess("state", ea.STATE_SET), e.voltage(), e.power(), e.current(), e.energy()],
    },
    {
        fingerprint: tuya.fingerprint("TS1101", ["_TZ3000_xfs39dbf"]),
        model: "TS1101_dimmer_module_1ch",
        vendor: "Tuya",
        description: "Zigbee dimmer module 1 channel",
        extend: [tuyaLight({minBrightness: "attribute"})],
    },
    {
        fingerprint: tuya.fingerprint("TS1101", ["_TZ3000_7ysdnebc"]),
        model: "TS1101_dimmer_module_2ch",
        vendor: "Tuya",
        description: "Zigbee dimmer module 2 channel",
        whiteLabel: [{vendor: "OXT", model: "SWTZ25"}],
        extend: [
            m.deviceEndpoints({endpoints: {l1: 1, l2: 2}}),
            tuyaLight({
                minBrightness: "attribute",
                endpointNames: ["l1", "l2"],
                configureReporting: true,
            }),
        ],
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
        },
    },
    {
        zigbeeModel: ["RH3001"],
        fingerprint: [
            {
                type: "EndDevice",
                manufacturerID: 4098,
                applicationVersion: 66,
                endpoints: [
                    {
                        ID: 1,
                        profileID: 260,
                        deviceID: 1026,
                        inputClusters: [0, 10, 1, 1280],
                        outputClusters: [25],
                    },
                ],
            },
        ],
        model: "SNTZ007",
        vendor: "Tuya",
        description: "Rechargeable Zigbee contact sensor",
        fromZigbee: [fz.ias_contact_alarm_1, fz.battery],
        toZigbee: [],
        exposes: [e.contact(), e.battery_low(), e.tamper(), e.battery()],
        whiteLabel: [{vendor: "BlitzWolf", model: "BW-IS2"}],
    },
    {
        zigbeeModel: ["RH3040"],
        model: "RH3040",
        vendor: "Tuya",
        description: "PIR sensor",
        fromZigbee: [fz.battery, fz.ias_occupancy_alarm_1],
        toZigbee: [],
        whiteLabel: [
            {vendor: "Samotech", model: "SM301Z"},
            {vendor: "Nedis", model: "ZBSM10WT"},
        ],
        exposes: [e.battery(), e.occupancy(), e.battery_low(), e.tamper()],
    },
    {
        zigbeeModel: ["TS0115"],
        model: "TS0115",
        vendor: "Tuya",
        description: "Multiprise with 4 AC outlets and 2 USB super charging ports (10A or 16A)",
        extend: [
            tuya.modernExtend.tuyaOnOff({
                endpoints: ["l1", "l2", "l3", "l4", "l5"],
            }),
        ],
        whiteLabel: [{vendor: "UseeLink", model: "SM-SO306E/K/M"}],
        endpoint: (device) => {
            return {l1: 1, l2: 2, l3: 3, l4: 4, l5: 7};
        },
        meta: {multiEndpoint: true},
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            await reporting.bind(device.getEndpoint(1), coordinatorEndpoint, ["genOnOff"]);
            await reporting.bind(device.getEndpoint(2), coordinatorEndpoint, ["genOnOff"]);
            await reporting.bind(device.getEndpoint(3), coordinatorEndpoint, ["genOnOff"]);
            await reporting.bind(device.getEndpoint(4), coordinatorEndpoint, ["genOnOff"]);
            await reporting.bind(device.getEndpoint(7), coordinatorEndpoint, ["genOnOff"]);
            await device.getEndpoint(1).read("genOnOff", ["onOff", "moesStartUpOnOff"]);
            await device.getEndpoint(2).read("genOnOff", ["onOff"]);
            await device.getEndpoint(3).read("genOnOff", ["onOff"]);
            await device.getEndpoint(4).read("genOnOff", ["onOff"]);
            await device.getEndpoint(7).read("genOnOff", ["onOff"]);
        },
    },
    {
        zigbeeModel: ["RH3052"],
        model: "TT001ZAV20",
        vendor: "Tuya",
        description: "Temperature & humidity sensor",
        fromZigbee: [fz.humidity, fz.temperature, fz.battery],
        toZigbee: [],
        exposes: [e.humidity(), e.temperature(), e.battery()],
    },
    {
        fingerprint: tuya.fingerprint("TS0011", ["_TZ3000_l8fsgo6p"]),
        zigbeeModel: ["TS0011"],
        model: "TS0011",
        vendor: "Tuya",
        description: "Smart light switch - 1 gang",
        extend: [tuya.modernExtend.tuyaOnOff({backlightModeOffNormalInverted: true})],
        whiteLabel: [
            {vendor: "Vrey", model: "VR-X712U-0013"},
            {vendor: "TUYATEC", model: "GDKES-01TZXD"},
            {
                vendor: "Lonsonho",
                model: "QS-Zigbee-S05-L",
                description: "1 gang smart switch module without neutral wire",
            },
            {vendor: "Mercator Ikuü", model: "SSW01"},
            tuya.whitelabel("Nous", "LZ3", "Smart water/gas valve", ["_TZ3000_abjodzas"]),
        ],
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            await reporting.bind(device.getEndpoint(1), coordinatorEndpoint, ["genOnOff"]);
            // Reports itself as battery which is not correct: https://github.com/Koenkk/zigbee2mqtt/issues/6190
            device.powerSource = "Mains (single phase)";
            device.save();
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0011", ["_TZ3000_qmi1cfuq", "_TZ3000_txpirhfq", "_TZ3000_ji4araar"]),
        model: "TS0011_switch_module",
        vendor: "Tuya",
        description: "1 gang switch module - (without neutral)",
        extend: [tuya.modernExtend.tuyaOnOff({switchType: true})],
        whiteLabel: [
            {vendor: "AVATTO", model: "1gang N-ZLWSM01"},
            {vendor: "SMATRUL", model: "TMZ02L-16A-W"},
            {vendor: "Aubess", model: "TMZ02L-16A-B"},
        ],
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            await reporting.bind(device.getEndpoint(1), coordinatorEndpoint, ["genOnOff"]);
            device.powerSource = "Mains (single phase)";
            device.save();
        },
    },
    {
        zigbeeModel: ["TS0012"],
        model: "TS0012",
        vendor: "Tuya",
        description: "Smart light switch - 2 gang",
        whiteLabel: [
            {vendor: "Vrey", model: "VR-X712U-0013"},
            {vendor: "TUYATEC", model: "GDKES-02TZXD"},
            {vendor: "Earda", model: "ESW-2ZAA-EU"},
            {vendor: "Moes", model: "ZS-US2-BK-MS"},
            tuya.whitelabel("Moes", "ZS-EUB_2gang", "Smart light switch - 2 gang", ["_TZ3000_18ejxno0"]),
        ],
        extend: [
            tuya.modernExtend.tuyaOnOff({
                backlightModeOffNormalInverted: true,
                endpoints: ["left", "right"],
            }),
        ],
        endpoint: (device) => {
            return {left: 1, right: 2};
        },
        meta: {multiEndpoint: true},
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            await reporting.bind(device.getEndpoint(1), coordinatorEndpoint, ["genOnOff"]);
            await reporting.bind(device.getEndpoint(2), coordinatorEndpoint, ["genOnOff"]);
            device.powerSource = "Mains (single phase)";
            device.save();
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0012", ["_TZ3000_jl7qyupf", "_TZ3000_nPGIPl5D", "_TZ3000_kpatq5pq", "_TZ3000_ljhbw1c9", "_TZ3000_4zf0crgo"]),
        model: "TS0012_switch_module",
        vendor: "Tuya",
        description: "2 gang switch module - (without neutral)",
        whiteLabel: [
            {vendor: "AVATTO", model: "2gang N-ZLWSM01"},
            tuya.whitelabel("AVATTO", "LZWSM16-2", "2 gang switch module - (without neutral)", ["_TZ3000_kpatq5pq", "_TZ3000_ljhbw1c9"]),
        ],
        extend: [
            tuya.modernExtend.tuyaOnOff({
                switchType: true,
                onOffCountdown: true,
                endpoints: ["left", "right"],
            }),
            m.forcePowerSource({powerSource: "Mains (single phase)"}),
        ],
        endpoint: (device) => {
            return {left: 1, right: 2};
        },
        meta: {multiEndpoint: true},
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            await reporting.bind(device.getEndpoint(1), coordinatorEndpoint, ["genOnOff"]);
            await reporting.bind(device.getEndpoint(2), coordinatorEndpoint, ["genOnOff"]);
            device.powerSource = "Mains (single phase)";
            device.save();
        },
    },
    {
        zigbeeModel: ["TS0013"],
        model: "TS0013",
        vendor: "Tuya",
        description: "Smart light switch - 3 gang without neutral wire",
        extend: [
            tuya.modernExtend.tuyaOnOff({
                backlightModeOffNormalInverted: true,
                endpoints: ["left", "center", "right"],
            }),
        ],
        endpoint: (device) => {
            return {left: 1, center: 2, right: 3};
        },
        whiteLabel: [{vendor: "TUYATEC", model: "GDKES-03TZXD"}],
        meta: {multiEndpoint: true},
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            try {
                for (const ID of [1, 2, 3]) {
                    const endpoint = device.getEndpoint(ID);
                    await reporting.bind(endpoint, coordinatorEndpoint, ["genOnOff"]);
                }
            } catch {
                // Fails for some: https://github.com/Koenkk/zigbee2mqtt/issues/4872
            }
            device.powerSource = "Mains (single phase)";
            device.save();
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0013", ["_TZ3000_ypgri8yz", "_TZ3000_sznawwyw"]),
        model: "TS0013_switch_module",
        vendor: "Tuya",
        description: "3 gang switch module - (without neutral)",
        whiteLabel: [
            {vendor: "AVATTO", model: "3gang N-ZLWSM01"},
            tuya.whitelabel("AVATTO", "LZWSM16-3", "3 gang switch module - (without neutral)", ["_TZ3000_sznawwyw"]),
            tuya.whitelabel("Girier", "ZB08", "3 Channel Switch Module-L - (No Neutral Wire)", ["_TZ3000_ypgri8yz"]),
        ],
        extend: [
            tuya.modernExtend.tuyaOnOff({
                switchType: true,
                onOffCountdown: true,
                endpoints: ["left", "center", "right"],
            }),
            m.forcePowerSource({powerSource: "Mains (single phase)"}),
        ],
        endpoint: (device) => {
            return {left: 1, center: 2, right: 3};
        },
        meta: {multiEndpoint: true},
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            try {
                for (const ID of [1, 2, 3]) {
                    const endpoint = device.getEndpoint(ID);
                    await reporting.bind(endpoint, coordinatorEndpoint, ["genOnOff"]);
                }
            } catch {
                // Fails for some: https://github.com/Koenkk/zigbee2mqtt/issues/4872
            }
            device.powerSource = "Mains (single phase)";
            device.save();
        },
    },
    {
        zigbeeModel: ["TS0014"],
        model: "TS0014",
        vendor: "Tuya",
        description: "Smart light switch - 4 gang without neutral wire",
        extend: [
            tuya.modernExtend.tuyaOnOff({
                backlightModeLowMediumHigh: true,
                endpoints: ["l1", "l2", "l3", "l4"],
            }),
        ],
        endpoint: (device) => {
            return {l1: 1, l2: 2, l3: 3, l4: 4};
        },
        whiteLabel: [
            {vendor: "TUYATEC", model: "GDKES-04TZXD"},
            {vendor: "Vizo", model: "VZ-222S"},
            {vendor: "MakeGood", model: "MG-ZG04W/B/G"},
            {vendor: "Mercator Ikuü", model: "SSW04"},
        ],
        meta: {multiEndpoint: true},
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            try {
                for (const ID of [1, 2, 3, 4]) {
                    const endpoint = device.getEndpoint(ID);
                    await reporting.bind(endpoint, coordinatorEndpoint, ["genOnOff"]);
                }
            } catch {
                // Fails for some: https://github.com/Koenkk/zigbee2mqtt/issues/4872
            }
            device.powerSource = "Mains (single phase)";
            device.save();
        },
    },
    {
        zigbeeModel: ["gq8b1uv"],
        model: "gq8b1uv",
        vendor: "Tuya",
        description: "Zigbee smart dimmer",
        fromZigbee: [legacy.fromZigbee.tuya_dimmer],
        toZigbee: [legacy.toZigbee.tuya_dimmer_state, legacy.toZigbee.tuya_dimmer_level],
        exposes: [e.light_brightness().setAccess("state", ea.STATE_SET).setAccess("brightness", ea.STATE_SET)],
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            const endpoint = device.getEndpoint(1);
            await reporting.bind(endpoint, coordinatorEndpoint, ["genOnOff", "genLevelCtrl"]);
        },
    },
    {
        zigbeeModel: ["HY0017", "005f0c3b"],
        model: "U86KCJ-ZP",
        vendor: "Tuya",
        description: "Smart 6 key scene wall switch",
        fromZigbee: [fzLocal.scenes_recall_scene_65029],
        exposes: [e.action(["scene_1", "scene_2", "scene_3", "scene_4", "scene_5", "scene_6"])],
        toZigbee: [],
    },
    {
        zigbeeModel: ["TS0026"],
        model: "TS0026",
        vendor: "Tuya",
        description: "6 button scene wall switch",
        fromZigbee: [fzLocal.scenes_recall_scene_65029, fzLocal.scene_recall],
        exposes: [e.action(["scene_1", "scene_2", "scene_3", "scene_4", "scene_5", "scene_6"])],
        toZigbee: [],
    },
    {
        zigbeeModel: ["q9mpfhw"],
        model: "SNTZ009",
        vendor: "Tuya",
        description: "Water leak sensor",
        fromZigbee: [legacy.fromZigbee.tuya_water_leak],
        exposes: [e.water_leak()],
        toZigbee: [],
    },
    {
        zigbeeModel: ["TS0004"],
        model: "TS0004",
        vendor: "Tuya",
        description: "Smart light switch - 4 gang with neutral wire",
        extend: [
            tuya.modernExtend.tuyaOnOff({
                powerOnBehavior2: true,
                backlightModeOffOn: true,
                endpoints: ["l1", "l2", "l3", "l4"],
            }),
        ],
        endpoint: (device) => {
            return {l1: 1, l2: 2, l3: 3, l4: 4};
        },
        whiteLabel: [
            tuya.whitelabel("Tuya", "DS-111", "Smart light switch - 4 gang with neutral wire", ["_TZ3000_mdj7kra9"]),
            tuya.whitelabel("MHCOZY", "TYWB 4ch-RF", "4 channel relay", ["_TZ3000_u3oupgdy", "_TZ3000_imaccztn"]),
            tuya.whitelabel("AVATTO", "TS0004_1", "Smart light switch - 4 gang with neutral wire", ["_TZ3000_nivavasg", "_TZ3000_gexniqbq"]),
            tuya.whitelabel("Nova Digital", "SA-4", "Safira smart light switch - 4 gang", ["_TZ3000_iymfxdis"]),
        ],
        meta: {multiEndpoint: true},
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            await reporting.bind(device.getEndpoint(1), coordinatorEndpoint, ["genOnOff"]);
            await reporting.bind(device.getEndpoint(2), coordinatorEndpoint, ["genOnOff"]);
            await reporting.bind(device.getEndpoint(3), coordinatorEndpoint, ["genOnOff"]);
            await reporting.bind(device.getEndpoint(4), coordinatorEndpoint, ["genOnOff"]);
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0004", ["_TZ3000_ncb6mkx8"]),
        model: "TS0004_fan_light_switch",
        vendor: "Tuya",
        description: "Fan and light controller with 3 speeds",
        fromZigbee: [fz.on_off, fzLocal.TS0004_backlight_mode],
        toZigbee: [tz.on_off, tzLocal.TS0004_backlight_mode],
        exposes: [
            e.switch().withEndpoint("lights").withDescription("Light control"),
            e.switch().withEndpoint("low").withDescription("Fan speed: low"),
            e.switch().withEndpoint("medium").withDescription("Fan speed: medium"),
            e.switch().withEndpoint("high").withDescription("Fan speed: high"),
            e
                .enum("backlight_mode", ea.ALL, ["red_when_on", "pink_when_on", "red_on_blue_off", "pink_on_blue_off"])
                .withDescription("Backlight color mode"),
        ],
        endpoint: (device) => {
            return {lights: 1, high: 2, low: 3, medium: 4};
        },
        meta: {multiEndpoint: true},
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            for (const ID of [1, 2, 3, 4]) {
                await reporting.bind(device.getEndpoint(ID), coordinatorEndpoint, ["genOnOff"]);
            }
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0726", ["_TZ3002_1s0vfmtv", "_TZ3002_gdwja9a7"]),
        model: "TS0726_2_gang",
        vendor: "Tuya",
        description: "2 gang switch with neutral wire",
        fromZigbee: [fz.on_off, tuya.fz.power_on_behavior_2, fzLocal.TS0726_action],
        toZigbee: [tz.on_off, tuya.tz.power_on_behavior_2, tzLocal.TS0726_switch_mode],
        exposes: [
            ...[1, 2].map((ep) => e.switch().withEndpoint(`l${ep}`)),
            ...[1, 2].map((ep) => e.power_on_behavior().withEndpoint(`l${ep}`)),
            ...[1, 2].map((ep) => e.enum("switch_mode", ea.STATE_SET, ["switch", "scene"]).withEndpoint(`l${ep}`)),
            e.action(["scene_1", "scene_2"]),
        ],
        endpoint: (device) => {
            return {l1: 1, l2: 2};
        },
        meta: {multiEndpoint: true},
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            for (const ep of [1, 2]) {
                await reporting.bind(device.getEndpoint(ep), coordinatorEndpoint, ["genOnOff"]);
            }
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0726", ["_TZ3002_9vcekkp1", "_TZ3000_m4ah6bcz"]),
        model: "TS0726_multi_1_gang",
        vendor: "Tuya",
        description: "Multi 1 gang switch with backlight",
        fromZigbee: [fz.on_off, tuya.fz.power_on_behavior_2, fzLocal.TS0726_action],
        toZigbee: [tz.on_off, tuya.tz.power_on_behavior_2, tzLocal.TS0726_switch_mode, tuya.tz.backlight_indicator_mode_2],
        exposes: [
            e.switch(),
            e.power_on_behavior(),
            e.enum("switch_mode", ea.STATE_SET, ["switch", "scene"]),
            tuya.exposes.backlightModeOffOn().withAccess(ea.STATE_SET),
            e.action(["scene_1"]),
        ],
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            for (const ep of [1]) {
                await reporting.bind(device.getEndpoint(ep), coordinatorEndpoint, ["genOnOff"]);
            }
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0726", ["_TZ3000_m3pafcnk", "_TZ3002_m3pafcnk"]),
        model: "TS0726_multi_3_gang",
        vendor: "Tuya",
        description: "multi 3 gang switch with backlight",
        fromZigbee: [fz.on_off, tuya.fz.power_on_behavior_2, fzLocal.TS0726_action],
        toZigbee: [tz.on_off, tuya.tz.power_on_behavior_2, tzLocal.TS0726_switch_mode, tuya.tz.backlight_indicator_mode_2],
        exposes: [
            ...[1, 2, 3].map((ep) => e.switch().withEndpoint(`l${ep}`)),
            ...[1, 2, 3].map((ep) => e.power_on_behavior().withEndpoint(`l${ep}`)),
            ...[1, 2, 3].map((ep) => e.enum("switch_mode", ea.STATE_SET, ["switch", "scene"]).withEndpoint(`l${ep}`)),
            tuya.exposes.backlightModeOffOn().withAccess(ea.STATE_SET),
            e.action(["scene_1", "scene_2", "scene_3"]),
        ],
        endpoint: (device) => {
            return {l1: 1, l2: 2, l3: 3};
        },
        meta: {multiEndpoint: true},
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            for (const ep of [1, 2, 3]) {
                await reporting.bind(device.getEndpoint(ep), coordinatorEndpoint, ["genOnOff"]);
            }
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0726", ["_TZ3002_aewsvjcu", "_TZ3002_phu8ygaw"]),
        model: "TS0726_multi_4_gang",
        vendor: "Tuya",
        description: "Multi 4 gang switch with backlight",
        fromZigbee: [fz.on_off, tuya.fz.power_on_behavior_2, fzLocal.TS0726_action],
        toZigbee: [tz.on_off, tuya.tz.power_on_behavior_2, tzLocal.TS0726_switch_mode, tuya.tz.backlight_indicator_mode_2],
        exposes: [
            ...[1, 2, 3, 4].map((ep) => e.switch().withEndpoint(`l${ep}`)),
            ...[1, 2, 3, 4].map((ep) => e.power_on_behavior().withEndpoint(`l${ep}`)),
            ...[1, 2, 3, 4].map((ep) => e.enum("switch_mode", ea.STATE_SET, ["switch", "scene"]).withEndpoint(`l${ep}`)),
            tuya.exposes.backlightModeOffOn().withAccess(ea.STATE_SET),
            e.action(["scene_1", "scene_2", "scene_3", "scene_4"]),
        ],
        endpoint: (device) => {
            return {l1: 1, l2: 2, l3: 3, l4: 4};
        },
        meta: {multiEndpoint: true},
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            for (const ep of [1, 2, 3, 4]) {
                await reporting.bind(device.getEndpoint(ep), coordinatorEndpoint, ["genOnOff"]);
            }
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0726", ["_TZ3000_qhyadm57"]),
        model: "TS0726_4_gang_switch_and_2_scene",
        vendor: "Tuya",
        description: "Multi 4 gang switch and 2 scene with backlight",
        fromZigbee: [fz.on_off, tuya.fz.power_on_behavior_2, fzLocal.TS0726_action],
        toZigbee: [tz.on_off, tuya.tz.power_on_behavior_2, tzLocal.TS0726_switch_mode, tuya.tz.backlight_indicator_mode_2],
        exposes: [
            ...[1, 2, 3, 4].map((ep) => e.switch().withEndpoint(`l${ep}`)),
            ...[1, 2, 3, 4].map((ep) => e.power_on_behavior().withEndpoint(`l${ep}`)),
            ...[1, 2, 3, 4].map((ep) => e.enum("switch_mode", ea.STATE_SET, ["switch", "scene"]).withEndpoint(`l${ep}`)),
            tuya.exposes.backlightModeOffOn().withAccess(ea.STATE_SET),
            e.action(["scene_1", "scene_2", "scene_3", "scene_4", "scene_5", "scene_6"]),
        ],
        endpoint: (device) => {
            return {l1: 1, l2: 2, l3: 3, l4: 4, l5: 5, l6: 6};
        },
        meta: {multiEndpoint: true},
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            for (const ep of [1, 2, 3, 4, 5, 6]) {
                await reporting.bind(device.getEndpoint(ep), coordinatorEndpoint, ["genOnOff"]);
            }
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0726", ["_TZ3002_iedhxgyi"]),
        model: "TS0726_3_gang",
        vendor: "Tuya",
        description: "3 gang switch with neutral wire",
        fromZigbee: [fz.on_off, tuya.fz.power_on_behavior_2, fzLocal.TS0726_action],
        toZigbee: [tz.on_off, tuya.tz.power_on_behavior_2, tzLocal.TS0726_switch_mode],
        exposes: [
            ...[1, 2, 3].map((ep) => e.switch().withEndpoint(`l${ep}`)),
            ...[1, 2, 3].map((ep) => e.power_on_behavior().withEndpoint(`l${ep}`)),
            ...[1, 2, 3].map((ep) => e.enum("switch_mode", ea.STATE_SET, ["switch", "scene"]).withEndpoint(`l${ep}`)),
            e.action(["scene_1", "scene_2", "scene_3"]),
        ],
        endpoint: (device) => {
            return {l1: 1, l2: 2, l3: 3};
        },
        meta: {multiEndpoint: true},
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            for (const ep of [1, 2, 3]) {
                await reporting.bind(device.getEndpoint(ep), coordinatorEndpoint, ["genOnOff"]);
            }
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0726", ["_TZ3000_wsspgtcd", "_TZ3000_s678wazd", "_TZ3002_pzao9ls1", "_TZ3000_kfkqkjqe"]),
        model: "TS0726_4_gang",
        vendor: "Tuya",
        description: "4 gang switch with neutral wire",
        fromZigbee: [fz.on_off, tuya.fz.power_on_behavior_2, fzLocal.TS0726_action],
        toZigbee: [tz.on_off, tuya.tz.power_on_behavior_2, tzLocal.TS0726_switch_mode],
        exposes: [
            ...[1, 2, 3, 4].map((ep) => e.switch().withEndpoint(`l${ep}`)),
            ...[1, 2, 3, 4].map((ep) => e.power_on_behavior().withEndpoint(`l${ep}`)),
            ...[1, 2, 3, 4].map((ep) => e.enum("switch_mode", ea.STATE_SET, ["switch", "scene"]).withEndpoint(`l${ep}`)),
            e.action(["scene_1", "scene_2", "scene_3", "scene_4"]),
        ],
        endpoint: (device) => {
            return {l1: 1, l2: 2, l3: 3, l4: 4};
        },
        meta: {multiEndpoint: true},
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            for (const ep of [1, 2, 3, 4]) {
                await reporting.bind(device.getEndpoint(ep), coordinatorEndpoint, ["genOnOff"]);
            }
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0726", ["_TZ3002_sal078g8", "_TZ3002_sfh0jtz0"]),
        model: "TS0726_switch_4g_2s",
        vendor: "Tuya",
        description: "COSWALL smart switch (4 gang + 2 scene)",
        fromZigbee: [fzLocal.TS0726_action],
        exposes: [e.action(["scene_1", "scene_2", "scene_3", "scene_4", "scene_5", "scene_6"])],
        extend: [
            tuya.modernExtend.tuyaOnOff({
                switchMode: true,
                powerOnBehavior2: true,
                backlightModeOffOn: true,
                endpoints: ["l1", "l2", "l3", "l4"],
            }),
        ],
        endpoint: (device) => {
            return {l1: 1, l2: 2, l3: 3, l4: 4, l5: 5, l6: 6};
        },
        meta: {multiEndpoint: true},
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            for (const ep of [1, 2, 3, 4, 5, 6]) {
                await reporting.bind(device.getEndpoint(ep), coordinatorEndpoint, ["genOnOff"]);
            }
        },
    },
    {
        zigbeeModel: ["TS0006"],
        model: "TS0006",
        vendor: "Tuya",
        description: "6 gang switch module with neutral wire",
        extend: [tuya.modernExtend.tuyaOnOff()],
        exposes: [
            e.switch().withEndpoint("l1"),
            e.switch().withEndpoint("l2"),
            e.switch().withEndpoint("l3"),
            e.switch().withEndpoint("l4"),
            e.switch().withEndpoint("l5"),
            e.switch().withEndpoint("l6"),
        ],
        endpoint: (device) => {
            return {l1: 1, l2: 2, l3: 3, l4: 4, l5: 5, l6: 6};
        },
        meta: {multiEndpoint: true},
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            await reporting.bind(device.getEndpoint(1), coordinatorEndpoint, ["genOnOff"]);
            await reporting.bind(device.getEndpoint(2), coordinatorEndpoint, ["genOnOff"]);
            await reporting.bind(device.getEndpoint(3), coordinatorEndpoint, ["genOnOff"]);
            await reporting.bind(device.getEndpoint(4), coordinatorEndpoint, ["genOnOff"]);
            await reporting.bind(device.getEndpoint(5), coordinatorEndpoint, ["genOnOff"]);
            await reporting.bind(device.getEndpoint(6), coordinatorEndpoint, ["genOnOff"]);
        },
        whiteLabel: [tuya.whitelabel("AVATTO", "TS0006_1", "4 gang switch module with neutral wire and socket", ["_TZ3000_cvis4qmw"])],
    },
    {
        zigbeeModel: ["HY0080"],
        model: "U86KWF-ZPSJ",
        vendor: "Tuya",
        description: "Environment controller",
        fromZigbee: [fz.thermostat, fz.fan],
        toZigbee: [
            tz.thermostat_local_temperature,
            tz.thermostat_local_temperature_calibration,
            tz.thermostat_occupancy,
            tz.thermostat_occupied_heating_setpoint,
            tz.thermostat_unoccupied_heating_setpoint,
            tz.thermostat_occupied_cooling_setpoint,
            tz.thermostat_unoccupied_cooling_setpoint,
            tz.thermostat_setpoint_raise_lower,
            tz.thermostat_remote_sensing,
            tz.thermostat_control_sequence_of_operation,
            tz.thermostat_system_mode,
            tz.thermostat_weekly_schedule,
            tz.thermostat_clear_weekly_schedule,
            tz.thermostat_relay_status_log,
            tz.thermostat_temperature_setpoint_hold,
            tz.thermostat_temperature_setpoint_hold_duration,
            tz.fan_mode,
        ],
        exposes: [
            e
                .climate()
                .withSetpoint("occupied_heating_setpoint", 5, 30, 0.5)
                .withLocalTemperature()
                .withSystemMode(["off", "auto", "heat"], ea.ALL)
                .withRunningState(["idle", "heat", "cool"], ea.STATE)
                .withLocalTemperatureCalibration(-30, 30, 0.1, ea.ALL)
                .withPiHeatingDemand(),
        ],
        configure: async (device, coordinatorEndpoint) => {
            const endpoint = device.getEndpoint(9);
            await reporting.bind(endpoint, coordinatorEndpoint, ["hvacThermostat", "hvacFanCtrl"]);
            await reporting.thermostatTemperature(endpoint);
            await reporting.thermostatSystemMode(endpoint);
            await reporting.thermostatOccupiedHeatingSetpoint(endpoint);
            await reporting.thermostatUnoccupiedHeatingSetpoint(endpoint);
            await reporting.thermostatOccupiedCoolingSetpoint(endpoint);
            await reporting.thermostatUnoccupiedCoolingSetpoint(endpoint);
            await reporting.fanMode(endpoint);
        },
    },
    {
        zigbeeModel: ["6dfgetq"],
        model: "D3-DPWK-TY",
        vendor: "Tuya",
        description: "HVAC controller",
        exposes: [
            e
                .climate()
                .withSetpoint("current_heating_setpoint", 5, 30, 0.5, ea.STATE_SET)
                .withLocalTemperature(ea.STATE)
                .withSystemMode(["off", "auto", "heat"], ea.STATE_SET)
                .withRunningState(["idle", "heat", "cool"], ea.STATE),
        ],
        fromZigbee: [legacy.fromZigbee.tuya_thermostat, legacy.fromZigbee.tuya_dimmer],
        meta: {
            tuyaThermostatSystemMode: legacy.thermostatSystemModes2,
            tuyaThermostatPreset: legacy.thermostatPresets,
        },
        toZigbee: [
            legacy.toZigbee.tuya_thermostat_current_heating_setpoint,
            legacy.toZigbee.tuya_thermostat_system_mode,
            legacy.toZigbee.tuya_thermostat_fan_mode,
            legacy.toZigbee.tuya_dimmer_state,
        ],
    },
    {
        zigbeeModel: ["E220-KR4N0Z0-HA", "JZ-ZB-004"],
        model: "E220-KR4N0Z0-HA",
        vendor: "Tuya",
        description: "Multiprise with 4 AC outlets and 2 USB super charging ports (16A)",
        extend: [tuya.modernExtend.tuyaOnOff()],
        fromZigbee: [fz.on_off_skip_duplicate_transaction],
        exposes: [e.switch().withEndpoint("l1"), e.switch().withEndpoint("l2"), e.switch().withEndpoint("l3"), e.switch().withEndpoint("l4")],
        whiteLabel: [{vendor: "LELLKI", model: "WP33-EU"}],
        meta: {multiEndpoint: true},
        endpoint: (device) => {
            return {l1: 1, l2: 2, l3: 3, l4: 4};
        },
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            await reporting.bind(device.getEndpoint(1), coordinatorEndpoint, ["genOnOff"]);
            await reporting.bind(device.getEndpoint(2), coordinatorEndpoint, ["genOnOff"]);
            await reporting.bind(device.getEndpoint(3), coordinatorEndpoint, ["genOnOff"]);
            await reporting.bind(device.getEndpoint(4), coordinatorEndpoint, ["genOnOff"]);
        },
    },
    {
        zigbeeModel: ["TS0216"],
        model: "TS0216",
        vendor: "Tuya",
        description: "Sound and flash siren",
        fromZigbee: [fz.ts0216_siren, fz.battery],
        exposes: [
            e.battery(),
            e.binary("alarm", ea.STATE_SET, true, false),
            e.numeric("volume", ea.ALL).withValueMin(0).withValueMax(100).withDescription("Volume of siren"),
        ],
        whiteLabel: [tuya.whitelabel("Hejhome", "GKZ-SA141", "Sound and flash siren", ["_TYZB01_sbpc1zrb"])],
        toZigbee: [tz.ts0216_alarm, tz.ts0216_duration, tz.ts0216_volume],
        configure: async (device, coordinatorEndpoint) => {
            const endpoint = device.getEndpoint(1);
            await reporting.bind(endpoint, coordinatorEndpoint, ["genPowerCfg"]);
            // Device advertises itself as Router but is an EndDevice
            device.type = "EndDevice";
            device.save();
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_znzs7yaw"]),
        model: "HY08WE",
        vendor: "Tuya",
        description: "Wall-mount thermostat",
        fromZigbee: [legacy.fromZigbee.hy_thermostat],
        toZigbee: [legacy.toZigbee.hy_thermostat],
        extend: [tuya.modernExtend.tuyaBase({timeStart: "2000"})],
        exposes: [
            e
                .climate()
                .withSetpoint("current_heating_setpoint", 5, 30, 0.5, ea.STATE_SET)
                .withLocalTemperature(ea.STATE)
                .withSystemMode(["off", "auto", "heat"], ea.STATE_SET)
                .withRunningState(["idle", "heat"], ea.STATE),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_g9a3awaj"]),
        model: "ZWT07",
        vendor: "Tuya",
        description: "Wall-mount thermostat",
        extend: [tuya.modernExtend.tuyaBase({dp: true, respondToMcuVersionResponse: true, timeStart: "2000"})],
        exposes: [
            e
                .climate()
                .withSetpoint("current_heating_setpoint", 5, 60, 0.5, ea.STATE_SET)
                .withSystemMode(["off", "heat"], ea.STATE_SET)
                .withRunningState(["idle", "heat"], ea.STATE)
                .withPreset(["manual", "program"])
                .withLocalTemperature(),
            e.binary("frost", ea.STATE_SET, "ON", "OFF").withDescription("Antifreeze function"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "system_mode", tuya.valueConverterBasic.lookup({heat: true, off: false})],
                [
                    2,
                    "preset",
                    tuya.valueConverterBasic.lookup({
                        manual: tuya.enum(1),
                        program: tuya.enum(0),
                    }),
                ],
                [36, "running_state", tuya.valueConverterBasic.lookup({heat: 1, idle: 0})],
                [16, "current_heating_setpoint", tuya.valueConverter.divideBy10],
                [24, "local_temperature", tuya.valueConverter.divideBy10],
                [10, "frost", tuya.valueConverter.onOff],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE284_6kijc7nd", "_TZE204_6kijc7nd"]),
        model: "_TZE284_6kijc7nd",
        vendor: "Tervix",
        description: "Tervix Zigbee thermostat",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            // Weekly Schedule (Datapoint 48) - Placeholder
            // The schedule is a raw 168-byte array (7 days x 24 bytes/day):
            // - Each day has up to 6 slots (4 bytes each): [Hour (1B), Minute (1B), Temp x10 (2B)]
            // - Empty slots: encoded as 00:00 time and 0°C temp (0x0000).
            // To implement:
            // - Converter 'from': Decode raw data into structured schedule (e.g., [{day, slots: [{time, temp}]}]).
            // - Converter 'to': Encode user input back into raw 168-byte buffer format.

            // Each timer can set the time in the 1st and 2nd bytes, and the temperature in the 3rd and 4th bytes.
            // There are 6 timers. The default time is 06:00 20°C; 08:00 15°C; 11:30 15°C; 13:30 15°C; 17:00 22°C; 22:00 15°C.
            // Each segment occupies 4 bytes. If the temperature contains decimals, the data must be expanded 10 times.
            // If it does not contain decimals, it will be transmitted normally.
            // For example, if it is 06:00 35.0, it will be transmitted as 06 00 01 5e. 6*4*3=72 bytes

            // Climate Control
            e
                .climate()
                .withSetpoint("current_heating_setpoint", 5, 35, 0.5, ea.STATE_SET)
                .withLocalTemperature(ea.STATE)
                .withSystemMode(["off", "heat"], ea.STATE_SET)
                .withRunningState(["idle", "heat"], ea.STATE),

            // Expose local temperature as a sensor
            e
                .numeric("local_temperature", ea.STATE)
                .withUnit("°C")
                .withDescription("Current temperature measured by the thermostat."),

            // Modes and Schedules
            e.enum("mode", ea.STATE_SET, ["manual", "program"]),
            e.enum("run_mode", ea.STATE_SET, ["heat_mode", "cool_mode"]).withDescription("Operation mode of the thermostat (heat or cool)."),
            e.enum("week_program_periods", ea.STATE, ["periods_4"]).withDescription("Number of program periods per week (read-only)."),

            // Features
            e
                .binary("factory_reset", ea.STATE_SET, "ON", "OFF")
                .withDescription("WARNING: Restores the device to factory settings. All configurations will be lost."),
            e.binary("child_lock", ea.STATE_SET, "ON", "OFF").withDescription("Enables or disables the child lock feature."),
            e.enum("window_state", ea.STATE, ["open", "close"]).withDescription("Indicates whether the window is open or closed."),
            e.enum("working_status", ea.STATE, ["Keeping Warm", "Working"]).withDescription("Current working status of the thermostat."),
            e.binary("window_check", ea.STATE_SET, "ON", "OFF").withDescription("Checks whether the window is open or closed."),
            e.binary("frost_protection", ea.STATE_SET, "ON", "OFF").withDescription("Enables frost protection mode."),
            e.enum("sensor_choose", ea.STATE_SET, ["in", "out"]).withDescription("Selects between internal or external temperature sensors."),
            e.binary("humidity_control", ea.STATE_SET, "ON", "OFF").withDescription("Controls the humidity protection feature."),
            e.numeric("humidity", ea.STATE).withUnit("%").withDescription("Displays the current relative humidity level in percentage."),

            // Weekly Schedule
            e
                .text("week_schedule", ea.STATE_SET)
                .withDescription('Weekly schedule: structured format like - Monday: [{"time":"06:30","temp":20.0},...].'),

            e
                .numeric("window_open_detection_time", ea.STATE_SET)
                .withUnit("min")
                .withValueMin(2)
                .withValueMax(30)
                .withValueStep(1)
                .withDescription("Window open detection threshold in minutes."),
            e
                .numeric("window_open_detection_temp", ea.STATE_SET)
                .withUnit("°C")
                .withValueMin(2)
                .withValueMax(4)
                .withDescription("Temperature threshold for window open detection."),
            e
                .numeric("window_open_delay_time", ea.STATE_SET)
                .withUnit("min")
                .withValueMin(10)
                .withValueMax(60)
                .withValueStep(1)
                .withDescription("Delay time for triggering window open detection (minutes)."),

            // Temperature and Control Adjustments
            e
                .numeric("upper_temp", ea.STATE_SET)
                .withUnit("°C")
                .withValueMin(35)
                .withValueMax(95)
                .withValueStep(0.5)
                .withDescription("Set the upper temperature limit"),
            e
                .numeric("temperature_correction", ea.STATE_SET)
                .withUnit("°C")
                .withValueMin(-9)
                .withValueMax(9)
                .withValueStep(1)
                .withDescription("Temperature calibration adjustment."),
            e
                .numeric("switch_sensitivity", ea.STATE_SET)
                .withUnit("°C")
                .withValueMin(0.5)
                .withValueMax(5.0)
                .withValueStep(0.5)
                .withDescription("Temperature difference threshold to trigger switching."),
            e
                .numeric("floor_temp_protection", ea.STATE_SET)
                .withUnit("°C")
                .withValueMin(5.0)
                .withValueMax(60.0)
                .withValueStep(0.5)
                .withDescription("Maximum allowed floor temperature for protection."),
            e
                .numeric("floor_low_protection", ea.STATE_SET)
                .withUnit("°C")
                .withValueMin(10.0)
                .withValueMax(30.0)
                .withValueStep(0.5)
                .withDescription("Minimum allowed floor temperature for protection."),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "system_mode", tuya.valueConverterBasic.lookup({off: 0, heat: 1})],
                [2, "mode", tuya.valueConverterBasic.lookup({manual: 0, program: 1})],
                [3, "working_status", tuya.valueConverterBasic.lookup({"Keeping Warm": 0, Working: 1})],
                [8, "window_check", tuya.valueConverter.onOff],
                [10, "frost_protection", tuya.valueConverter.onOff],
                [16, "current_heating_setpoint", tuya.valueConverter.divideBy10],
                [19, "upper_temp", tuya.valueConverter.divideBy10],
                [24, "local_temperature", tuya.valueConverter.divideBy10],
                [25, "window_state", tuya.valueConverterBasic.lookup({open: 1, close: 0})],
                [27, "temperature_correction", tuya.valueConverter.raw],
                [34, "humidity", tuya.valueConverter.raw],
                [39, "factory_reset", tuya.valueConverter.onOff],
                [40, "child_lock", tuya.valueConverter.onOff],
                [43, "sensor_choose", tuya.valueConverterBasic.lookup({in: 0, out: 1})],
                [48, "week_schedule", tuya.valueConverter.raw],
                [58, "run_mode", tuya.valueConverterBasic.lookup({heat_mode: 1, cool_mode: 2})],
                [61, "week_program_periods", tuya.valueConverterBasic.lookup({periods_4: "periods_4"})],
                [101, "switch_sensitivity", tuya.valueConverter.divideBy10],
                [102, "floor_temp_protection", tuya.valueConverter.divideBy10],
                [103, "floor_low_protection", tuya.valueConverter.divideBy10],
                [104, "window_open_detection_time", tuya.valueConverter.raw],
                [105, "window_open_detection_temp", tuya.valueConverter.raw],
                [106, "window_open_delay_time", tuya.valueConverter.raw],
                [107, "humidity_control", tuya.valueConverter.onOff],
                [108, "upper_humidity_limit", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_2ekuz3dz"]),
        model: "X5H-GB-B",
        vendor: "Tuya",
        description: "Wall-mount thermostat",
        fromZigbee: [fz.ignore_tuya_set_time, legacy.fromZigbee.x5h_thermostat],
        toZigbee: [legacy.toZigbee.x5h_thermostat],
        whiteLabel: [
            {vendor: "Beok", model: "TGR85-ZB"},
            {vendor: "AVATTO", model: "ZWT-100-16A"},
        ],
        exposes: [
            e
                .climate()
                .withSetpoint("current_heating_setpoint", 5, 60, 0.5, ea.STATE_SET)
                .withLocalTemperature(ea.STATE)
                .withLocalTemperatureCalibration(-9.9, 9.9, 0.1, ea.STATE_SET)
                .withSystemMode(["off", "heat"], ea.STATE_SET)
                .withRunningState(["idle", "heat"], ea.STATE)
                .withPreset(["manual", "program"]),
            e.temperature_sensor_select(["internal", "external", "both"]),
            e
                .text("schedule", ea.STATE_SET)
                .withDescription(
                    "There are 8 periods in the schedule in total. " +
                        "6 for workdays and 2 for holidays. It should be set in the following format for each of the periods: " +
                        "`hours:minutes/temperature`. All periods should be set at once and delimited by the space symbol. " +
                        "For example: `06:00/20.5 08:00/15 11:30/15 13:30/15 17:00/22 22:00/15 06:00/20 22:00/15`. " +
                        "The thermostat doesn't report the schedule by itself even if you change it manually from device",
                ),
            e.child_lock(),
            e.week(),
            e.enum("brightness_state", ea.STATE_SET, ["off", "low", "medium", "high"]).withDescription("Screen brightness"),
            e.binary("sound", ea.STATE_SET, "ON", "OFF").withDescription("Switches beep sound when interacting with thermostat"),
            e.binary("frost_protection", ea.STATE_SET, "ON", "OFF").withDescription("Antifreeze function"),
            e.binary("factory_reset", ea.STATE_SET, "ON", "OFF").withDescription("Resets all settings to default. Doesn't unpair device."),
            e
                .numeric("heating_temp_limit", ea.STATE_SET)
                .withUnit("°C")
                .withValueMax(60)
                .withValueMin(5)
                .withValueStep(1)
                .withPreset("default", 35, "Default value")
                .withDescription("Heating temperature limit"),
            e
                .numeric("deadzone_temperature", ea.STATE_SET)
                .withUnit("°C")
                .withValueMax(9.5)
                .withValueMin(0.5)
                .withValueStep(0.5)
                .withPreset("default", 1, "Default value")
                .withDescription("The delta between local_temperature and current_heating_setpoint to trigger Heat"),
            e
                .numeric("upper_temp", ea.STATE_SET)
                .withUnit("°C")
                .withValueMax(95)
                .withValueMin(35)
                .withValueStep(1)
                .withPreset("default", 60, "Default value"),
        ],
        extend: [tuya.modernExtend.tuyaBase({timeStart: "2000"})],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE284_agcxaw3f"]),
        model: "BOT-R15W",
        vendor: "Tuya",
        description: "Beok wall thermostat (battery powered)",
        extend: [
            tuya.modernExtend.tuyaBase({
                dp: true,
                respondToMcuVersionResponse: true,
                timeStart: "1970",
            }),
        ],
        exposes: [
            e.child_lock(),
            e
                .climate()
                .withSystemMode(["off", "heat"], ea.STATE_SET)
                .withPreset(["manual", "auto", "mixed", "away"])
                .withSetpoint("current_heating_setpoint", 5, 35, 0.5, ea.STATE_SET)
                .withRunningState(["idle", "heat"], ea.STATE)
                .withLocalTemperature(ea.STATE)
                .withLocalTemperatureCalibration(-9.9, 9.9, 0.1, ea.STATE_SET),
            e.binary("frost_protection", ea.STATE_SET, "ON", "OFF").withDescription("Antifreeze function"),
            e
                .max_temperature_limit()
                .withUnit("°C")
                .withValueMin(15)
                .withValueMax(90)
                .withValueStep(0.5)
                .withPreset("default", 60, "Default value")
                .withDescription("Maximum upper temperature"),
            e
                .numeric("temperature_delta", ea.STATE_SET)
                .withUnit("°C")
                .withValueMax(10)
                .withValueMin(0.5)
                .withValueStep(0.5)
                .withPreset("default", 1, "Default value")
                .withDescription("Delta between local temp and setpoint to trigger heat"),
            e.binary("factory_reset", ea.STATE_SET, "ON", "OFF").withDescription("Full factory reset, use with caution!"),
            e.battery(),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "system_mode", tuya.valueConverterBasic.lookup({heat: true, off: false})],
                [2, "current_heating_setpoint", tuya.valueConverter.divideBy10],
                [3, "local_temperature", tuya.valueConverter.divideBy10],
                [4, "preset", tuya.valueConverterBasic.lookup({manual: tuya.enum(0), auto: tuya.enum(1), mixed: tuya.enum(2), away: tuya.enum(3)})],
                [9, "child_lock", tuya.valueConverter.lockUnlock],
                [15, "max_temperature_limit", tuya.valueConverter.divideBy10],
                [19, "local_temperature_calibration", tuya.valueConverter.localTempCalibration3],
                [101, "running_state", tuya.valueConverterBasic.lookup({heat: tuya.enum(1), idle: tuya.enum(0)})],
                [102, "frost_protection", tuya.valueConverter.onOff],
                [103, "factory_reset", tuya.valueConverter.onOff],
                [107, "temperature_delta", tuya.valueConverter.divideBy10],
                [113, "battery", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", [
            "_TZE200_viy9ihs7",
            "_TZE204_lzriup1j",
            "_TZE204_xnbkhhdr",
            "_TZE284_xnbkhhdr",
            "_TZE204_oh8y8pv8",
            "_TZE204_gops3slb",
            "_TZE284_gops3slb",
            "_TZE284_zjhoqbrd",
            "_TZE204_zjhoqbrd",
            "_TZE284_aaeaifez",
        ]),
        model: "ZWT198/ZWT100-BH",
        vendor: "Tuya",
        description: "Wall thermostat",
        // Don't enable mcuVersionResponse
        // https://github.com/Koenkk/zigbee2mqtt/issues/28455#issuecomment-3603696676
        extend: [tuya.modernExtend.tuyaBase({dp: true, timeStart: "1970"})],
        whiteLabel: [tuya.whitelabel("AVATTO", "WT-100-BH", "Wall thermostat", ["_TZE204_gops3slb", "_TZE284_gops3slb"])],
        exposes: [
            e.binary("factory_reset", ea.STATE_SET, "ON", "OFF").withDescription("Full factory reset, use with caution!"),
            e.child_lock(),
            e.temperature_sensor_select(["internal", "external", "both"]),
            e
                .climate()
                .withSystemMode(["off", "heat"], ea.STATE_SET)
                .withPreset(["manual", "auto", "temporary_manual"])
                .withSetpoint("current_heating_setpoint", 5, 35, 0.5, ea.STATE_SET)
                .withRunningState(["idle", "heat"], ea.STATE)
                .withLocalTemperature(ea.STATE)
                .withLocalTemperatureCalibration(-9.9, 9.9, 0.1, ea.STATE_SET),
            e.binary("frost_protection", ea.STATE_SET, "ON", "OFF").withDescription("Antifreeze function"),
            e
                .max_temperature_limit()
                .withUnit("°C")
                .withValueMin(15)
                .withValueMax(90)
                .withValueStep(0.5)
                .withPreset("default", 60, "Default value")
                .withDescription("Maximum upper temperature"),
            e
                .numeric("deadzone_temperature", ea.STATE_SET)
                .withUnit("°C")
                .withValueMax(10)
                .withValueMin(0.1)
                .withValueStep(0.1)
                .withPreset("default", 1, "Default value")
                .withDescription("The delta between local_temperature (5<t<35)and current_heating_setpoint to trigger Heat"),
            e.enum("backlight_mode", ea.STATE_SET, ["off", "low", "medium", "high"]).withDescription("Intensity of the backlight"),
            e.enum("working_day", ea.STATE_SET, ["disabled", "6-1", "5-2", "7"]).withDescription("Workday setting"),
            e.text("schedule_weekday", ea.STATE_SET).withDescription("Workdays (6 times `hh:mm/cc.c°C`)"),
            e
                .text("schedule_holiday", ea.STATE_SET)
                .withDescription("Holidays (2 times `hh:mm/cc.c°C)`"),
            // ============== exposes for found, but not functional datapoints:
            /*
            e.min_temperature_limit() // dp 16
                .withValueMin(5)
                .withValueMax(15)
                .withValueStep(0.5)
                .withPreset('default', 10, 'Default value')
                .withDescription('dp16 is listed in Tuya, but no communication from device'),

            e.binary('dp105', ea.STATE_SET, 'ON', 'OFF')
                .withDescription('dp105 is not listed in Tuya, but device sends datapoint, binary: true/false'),

            e.binary('dp111', ea.STATE_SET, 'ON', 'OFF')
                .withDescription('dp111 is not listed in Tuya, but device sends datapoint, binary: true/false'),
            */
        ],
        meta: {
            tuyaDatapoints: [
                [1, "system_mode", tuya.valueConverterBasic.lookup({heat: true, off: false})],
                [2, "current_heating_setpoint", tuya.valueConverter.divideBy10],
                [3, "local_temperature", tuya.valueConverter.divideBy10],
                [
                    4,
                    "preset",
                    tuya.valueConverterBasic.lookup((_, device) => {
                        // https://github.com/Koenkk/zigbee2mqtt/issues/21353#issuecomment-1938328429
                        // https://github.com/Koenkk/zigbee2mqtt/issues/28035
                        if (device.manufacturerName === "_TZE204_lzriup1j" || device.manufacturerName === "_TZE204_gops3slb") {
                            return {
                                auto: tuya.enum(1),
                                manual: tuya.enum(0),
                                temporary_manual: tuya.enum(2),
                            };
                        }
                        return {
                            auto: tuya.enum(0),
                            manual: tuya.enum(1),
                            temporary_manual: tuya.enum(2),
                        };
                    }),
                ],
                [9, "child_lock", tuya.valueConverter.lockUnlock],
                [11, "faultalarm", tuya.valueConverter.raw],
                [15, "max_temperature_limit", tuya.valueConverter.divideBy10],
                [19, "local_temperature_calibration", tuya.valueConverter.localTempCalibration3],
                [
                    101,
                    "running_state",
                    tuya.valueConverterBasic.lookup({
                        heat: tuya.enum(1),
                        idle: tuya.enum(0),
                    }),
                ],
                [102, "frost_protection", tuya.valueConverter.onOff],
                [103, "factory_reset", tuya.valueConverter.onOff],
                [
                    104,
                    "working_day",
                    tuya.valueConverterBasic.lookup((_, device) => {
                        // https://github.com/Koenkk/zigbee2mqtt/issues/23979
                        if (device.manufacturerName === "_TZE200_viy9ihs7") {
                            return {
                                disabled: tuya.enum(0),
                                "6-1": tuya.enum(1),
                                "5-2": tuya.enum(2),
                                "7": tuya.enum(3),
                            };
                        }
                        return {
                            disabled: tuya.enum(0),
                            "6-1": tuya.enum(2),
                            "5-2": tuya.enum(1),
                            "7": tuya.enum(3),
                        };
                    }),
                ],
                [
                    106,
                    "sensor",
                    tuya.valueConverterBasic.lookup({
                        internal: tuya.enum(0),
                        external: tuya.enum(1),
                        both: tuya.enum(2),
                    }),
                ],
                [107, "deadzone_temperature", tuya.valueConverter.divideBy10],
                [109, null, tuya.valueConverter.ZWT198_schedule],
                [109, "schedule_weekday", tuya.valueConverter.ZWT198_schedule],
                [109, "schedule_holiday", tuya.valueConverter.ZWT198_schedule],
                [110, "backlight_mode", tuya.valueConverter.backlightModeOffLowMediumHigh],
                // ============== found but not functional datapoints:

                // [16, 'min_temperature_limit', tuya.valueConverter.divideBy10],  // datapoint listed in Tuya, but no communication from device
                // [105, 'dp105', tuya.valueConverter.onOff],                      // not listed in Tuya, but device sends datapoint
                // [111, 'dp111', tuya.valueConverter.onOff],                      // not listed in Tuya, but device sends datapoint

                // These are the schedule values in bytes, 8 periods in total (4 bytes per period).
                // For each period:
                // 1st byte: hour
                // 2nd byte: minute
                // 3rd, 4th bytes: temperature multiplied by 10
                // On the device last 2 periods are ignored if schedule_mode is 7day. When schedule_mode is disabled,
                // scheduling can't be configured at all on the device.
                // For example, if schedule_mode is weekday/sat+sun and this byte array is received:
                // [6,10,1,144,8,10,0,170,11,40,0,170,12,40,0,170,17,10,0,230,22,10,0,170,8,5,0,200,23,0,0,160]
                // Then the schedule is:
                // Mon-Fri: 6:10 --> 40C, 8:10 --> 17C, 11:40 --> 17C, 12:40 --> 17C, 17:10 --> 23C, 22:10 --> 17C
                // Sat-Sun: 8:05 --> 20C, 23:00 --> 16C
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_mwomyz5n", "_TZE204_cvub6xbb", "_TZE284_cvub6xbb"]),
        model: "TGM50-ZB",
        vendor: "Tuya",
        description: "Beok wall thermostat",
        extend: [tuya.modernExtend.tuyaBase({dp: true, respondToMcuVersionResponse: true, timeStart: "1970"})],
        exposes: [
            e.child_lock(),
            e.temperature_sensor_select(["internal", "external", "both"]),
            e
                .climate()
                .withSystemMode(["off", "heat"], ea.STATE_SET)
                .withPreset(["manual", "auto", "eco"])
                .withSetpoint("current_heating_setpoint", 5, 35, 0.5, ea.STATE_SET)
                .withRunningState(["idle", "heat"], ea.STATE)
                .withLocalTemperature(ea.STATE)
                .withLocalTemperatureCalibration(-9.9, 9.9, 0.1, ea.STATE_SET),
            e.enum("backlight_mode", ea.STATE_SET, ["off", "always_low", "always_mid", "always_high"]).withDescription("Intensity of the backlight"),
            e.binary("frost_protection", ea.STATE_SET, "ON", "OFF").withDescription("Antifreeze function"),
            e
                .max_temperature_limit()
                .withUnit("°C")
                .withValueMin(15)
                .withValueMax(90)
                .withValueStep(0.5)
                .withPreset("default", 60, "Default value")
                .withDescription("Maximum upper temperature"),
            e
                .numeric("temperature_delta", ea.STATE_SET)
                .withUnit("°C")
                .withValueMax(10)
                .withValueMin(0.5)
                .withValueStep(0.5)
                .withPreset("default", 1, "Default value")
                .withDescription("The delta between local_temperature and current_heating_setpoint to trigger Heat"),
            e.binary("factory_reset", ea.STATE_SET, "ON", "OFF").withDescription("Full factory reset, use with caution!"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "system_mode", tuya.valueConverterBasic.lookup({heat: true, off: false})],
                [2, "current_heating_setpoint", tuya.valueConverter.divideBy10],
                [3, "local_temperature", tuya.valueConverter.divideBy10],
                [
                    4,
                    "preset",
                    tuya.valueConverterBasic.lookup({
                        manual: tuya.enum(0),
                        auto: tuya.enum(1),
                        eco: tuya.enum(3),
                    }),
                ],
                [9, "child_lock", tuya.valueConverter.lockUnlock],
                [15, "max_temperature_limit", tuya.valueConverter.divideBy10],
                [19, "local_temperature_calibration", tuya.valueConverter.localTempCalibration3],
                [
                    101,
                    "running_state",
                    tuya.valueConverterBasic.lookup({
                        heat: tuya.enum(1),
                        idle: tuya.enum(0),
                    }),
                ],
                [102, "frost_protection", tuya.valueConverter.onOff],
                [103, "factory_reset", tuya.valueConverter.onOff],
                [
                    106,
                    "sensor",
                    tuya.valueConverterBasic.lookup({
                        internal: tuya.enum(0),
                        external: tuya.enum(1),
                        both: tuya.enum(2),
                    }),
                ],
                [107, "temperature_delta", tuya.valueConverter.divideBy10],
                [
                    110,
                    "backlight_mode",
                    tuya.valueConverterBasic.lookup({
                        off: tuya.enum(0),
                        always_low: tuya.enum(1),
                        always_mid: tuya.enum(2),
                        always_high: tuya.enum(3),
                    }),
                ],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0222", ["_TZ3000_kky16aay", "_TZE204_myd45weu", "_TZ3000_ceplrhnu"]),
        model: "TS0222_temperature_humidity",
        vendor: "Tuya",
        description: "Temperature & humidity sensor",
        fromZigbee: [fzLocal.TS0222_humidity, fz.battery, fz.temperature],
        toZigbee: [],
        configure: tuya.configureMagicPacket,
        exposes: [e.battery(), e.temperature(), e.humidity()],
        whiteLabel: [tuya.whitelabel("Tuya", "QT-07S", "Soil sensor", ["_TZE204_myd45weu"])],
        extend: [m.illuminance()],
    },
    {
        fingerprint: tuya.fingerprint("TS0222", ["_TZ3000_8uxxzz4b", "_TZ3000_9kbbfeho", "_TZ3000_l6rsaipj"]),
        model: "TS0222_light",
        vendor: "Tuya",
        description: "Light sensor",
        fromZigbee: [fz.battery],
        toZigbee: [],
        configure: tuya.configureMagicPacket,
        whiteLabel: [tuya.whitelabel("Moes", "ZSS-QT-LS-C", "Light sensor", ["_TZ3000_9kbbfeho"])],
        exposes: [e.battery()],
        extend: [m.illuminance()],
    },
    {
        fingerprint: tuya.fingerprint("TS0222", ["_TZ3000_t9qqxn70"]),
        model: "THE01860A",
        vendor: "Tuya",
        description: "Temp & humidity flower sensor with illuminance",
        fromZigbee: [fz.humidity, fz.battery, fz.temperature],
        toZigbee: [],
        configure: tuya.configureMagicPacket,
        exposes: [e.battery(), e.temperature(), e.humidity()],
        extend: [m.illuminance()],
    },
    {
        zigbeeModel: ["ZG-106Z"],
        fingerprint: tuya.fingerprint("TS0222", [
            "_TYZB01_4mdqxxnn",
            "_TYZB01_m6ec2pgj",
            "_TZ3000_do6txrcw",
            "_TZ3000_7kscdesh",
            "_TZ3000_hy6ncvmw",
            "_TZ3000_7y90pany",
        ]),
        model: "TS0222",
        vendor: "Tuya",
        description: "Light intensity sensor",
        fromZigbee: [fz.battery, legacy.fromZigbee.TS0222],
        toZigbee: [],
        whiteLabel: [{vendor: "HOBEIAN", model: "ZG-106Z", fingerprint: [{modelID: "ZG-106Z"}]}],
        exposes: [e.battery()],
        configure: tuya.configureMagicPacket,
        extend: [m.illuminance()],
    },
    {
        fingerprint: tuya.fingerprint("TS0222", ["_TZ3000_j6adk9id"]),
        model: "TS0222_solar_light",
        vendor: "Tuya",
        description: "Solar light sensor",
        configure: tuya.configureMagicPacket,
        extend: [m.illuminance(), m.battery()],
    },
    {
        zigbeeModel: ["TS0210"],
        model: "TS0210",
        vendor: "Tuya",
        description: "Vibration sensor",
        whiteLabel: [
            tuya.whitelabel("Niceboy", "ORBIS Vibration Sensor", "Vibration sensor", ["_TYZB01_821siati"]),
            tuya.whitelabel("iHseno", "_TZ3000_lzdjjfss", "Vibration sensor", ["_TZ3000_lzdjjfss"]),
        ],
        fromZigbee: [fz.battery, fz.ias_vibration_alarm_1_with_timeout],
        toZigbee: [tz.TS0210_sensitivity],
        exposes: [
            e.battery(),
            e.battery_voltage(),
            e.vibration(),
            e
                .numeric("sensitivity", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(50)
                .withDescription(
                    "Sensitivity of the sensor (0 = highest sensitivity, 50 = lowest sensitivity). " +
                        "Press button on the device right before changing this",
                ),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS011F", ["_TZ3000_8bxrzyxz", "_TZ3000_ky0fq4ho"]),
        model: "TS011F_din_smart_relay",
        description: "Din smart relay (with power monitoring)",
        vendor: "Tuya",
        fromZigbee: [fz.on_off, fz.electrical_measurement, fz.metering, tuya.fz.power_outage_memory, fz.tuya_relay_din_led_indicator],
        toZigbee: [tz.on_off, tuya.tz.power_on_behavior_1, tz.tuya_relay_din_led_indicator],
        whiteLabel: [{vendor: "MatSee Plus", model: "ATMS1602Z"}],
        ota: true,
        configure: async (device, coordinatorEndpoint) => {
            const endpoint = device.getEndpoint(1);
            await reporting.bind(endpoint, coordinatorEndpoint, ["genOnOff", "haElectricalMeasurement", "seMetering"]);
            await reporting.rmsVoltage(endpoint, {change: 5});
            await reporting.rmsCurrent(endpoint, {change: 50});
            await reporting.activePower(endpoint, {change: 10});
            await reporting.currentSummDelivered(endpoint);
            endpoint.saveClusterAttributeKeyValue("haElectricalMeasurement", {
                acCurrentDivisor: 1000,
                acCurrentMultiplier: 1,
            });
            endpoint.saveClusterAttributeKeyValue("seMetering", {
                divisor: 100,
                multiplier: 1,
            });
            device.save();
        },
        exposes: [
            e.switch(),
            e.power(),
            e.current(),
            e.voltage(),
            e.energy(),
            e.enum("power_outage_memory", ea.ALL, ["on", "off", "restore"]).withDescription("Recover state after power outage"),
            e.enum("indicator_mode", ea.STATE_SET, ["off", "on_off", "off_on"]).withDescription("Relay LED indicator mode"),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS011F", ["_TZ3000_qeuvnohg", "_TZ3000_6l1pjfqe", "_TZ3000_2iiimqs9"]),
        model: "TS011F_din_smart_relay_polling",
        description: "Din smart relay (with power monitoring via polling)",
        vendor: "Tuya",
        fromZigbee: [fz.on_off, fz.electrical_measurement, fz.metering, tuya.fz.power_outage_memory, fz.tuya_relay_din_led_indicator],
        toZigbee: [tz.on_off, tuya.tz.power_on_behavior_1, tz.tuya_relay_din_led_indicator],
        whiteLabel: [
            tuya.whitelabel("Tongou", "TO-Q-SY1-JZT", "Din smart relay (with power monitoring via polling)", ["_TZ3000_qeuvnohg"]),
            tuya.whitelabel("TOMZN", "TOB9Z-63M", "Din smart relay (with power monitoring via polling)", ["_TZ3000_6l1pjfqe"]),
            tuya.whitelabel("Nous", "DZ", "DIN Switch (with power monitoring via polling)", ["_TZ3000_2iiimqs9"]),
        ],
        ota: true,
        configure: async (device, coordinatorEndpoint) => {
            const endpoint = device.getEndpoint(1);
            await reporting.bind(endpoint, coordinatorEndpoint, ["genOnOff", "haElectricalMeasurement", "seMetering"]);
            await reporting.rmsVoltage(endpoint, {change: 5});
            await reporting.rmsCurrent(endpoint, {change: 50});
            await reporting.activePower(endpoint, {change: 10});
            await reporting.currentSummDelivered(endpoint);
            endpoint.saveClusterAttributeKeyValue("haElectricalMeasurement", {
                acCurrentDivisor: 1000,
                acCurrentMultiplier: 1,
            });
            endpoint.saveClusterAttributeKeyValue("seMetering", {
                divisor: 100,
                multiplier: 1,
            });
            device.save();
        },
        exposes: [
            e.switch(),
            e.power(),
            e.current(),
            e.voltage(),
            e.energy(),
            e.enum("power_outage_memory", ea.ALL, ["on", "off", "restore"]).withDescription("Recover state after power outage"),
            e.enum("indicator_mode", ea.STATE_SET, ["off", "on_off", "off_on"]).withDescription("Relay LED indicator mode"),
        ],
        extend: [tuya.modernExtend.electricityMeasurementPoll()],
    },
    {
        fingerprint: [...tuya.fingerprint("TS011F", ["_TZ3000_7issjl2q"]), ...tuya.fingerprint("TS0011", ["_TZ3000_gzvniqjb"])],
        model: "ATMS1601Z",
        description: "Din smart relay (without power monitoring)",
        vendor: "Tuya",
        fromZigbee: [fz.on_off, tuya.fz.power_outage_memory, fz.tuya_relay_din_led_indicator],
        toZigbee: [tz.on_off, tuya.tz.power_on_behavior_1, tz.tuya_relay_din_led_indicator],
        whiteLabel: [tuya.whitelabel("Tongou", "TO-Q-SY1-ZT", "Din smart relay (without power monitoring)", ["_TZ3000_gzvniqjb"])],
        configure: async (device, coordinatorEndpoint) => {
            const endpoint = device.getEndpoint(1);
            await reporting.bind(endpoint, coordinatorEndpoint, ["genOnOff"]);
            device.save();
        },
        exposes: [
            e.switch(),
            e.enum("power_outage_memory", ea.ALL, ["on", "off", "restore"]).withDescription("Recover state after power outage"),
            e.enum("indicator_mode", ea.STATE_SET, ["off", "on_off", "off_on"]).withDescription("Relay LED indicator mode"),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_nklqjk62", "_TZE204_nklqjk62", "_TZE204_jktmrpoj", "_TZE284_nklqjk62"]),
        model: "TS0601_garage_door_opener",
        vendor: "Tuya",
        description: "Garage door opener",
        whiteLabel: [
            tuya.whitelabel("MatSee Plus", "PJ-ZGD01", "Garage door opener", ["_TZE204_nklqjk62", "_TZE284_nklqjk62"]),
            tuya.whitelabel("Moes", "ZM-102-M", "Garage door opener", ["_TZE204_jktmrpoj"]),
        ],
        extend: [
            tuyaMagicPacket(),
            dpBinary({
                name: "trigger",
                dp: 1,
                type: tuya.dataTypes.bool,
                valueOn: [true, true],
                valueOff: [false, false],
                description:
                    "Request door to close (= false) or open (= true), will not pulse output if contact shows door is already in requested state",
            }),
            dpNumeric({
                name: "countdown",
                dp: 2,
                type: tuya.dataTypes.number,
                description: "Countdown to trigger door movement after a certain time, will pulse output in all cases",
                unit: "s",
                valueMin: 0,
                valueMax: 43200,
            }),
            dpBinary({
                name: "garage_door_contact",
                dp: 3,
                type: tuya.dataTypes.bool,
                valueOn: [true, false],
                valueOff: [false, true],
                description: "Indicates if the garage door contact is closed (= true) or open (= false)",
                readOnly: true,
            }),
            dpNumeric({
                name: "run_time",
                dp: 4,
                type: tuya.dataTypes.number,
                description: "Configure the time to wait for the door contact status to change before triggering a run time alarm",
                unit: "s",
                valueMin: 0,
                valueMax: 120,
            }),
            dpNumeric({
                name: "open_alarm_time",
                dp: 5,
                type: tuya.dataTypes.number,
                description: "Configure the amount of time the door may be open before an open time alarm is triggered",
                unit: "s",
                valueMin: 0,
                valueMax: 86400,
            }),
            dpEnumLookup({
                name: "status",
                dp: 12,
                type: tuya.dataTypes.enum,
                description: "Indicates run time alarm, door open alarm or normal status, will not return to normal until door is triggered again",
                lookup: {"Open Time Alarm": 0, "Run Time Alarm": 1, Normal: 2},
                readOnly: true,
            }),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_wfxuhoea", "_TZE204_wfxuhoea"]),
        model: "GDC311ZBQ1",
        vendor: "Tuya",
        description: "LoraTap garage door opener with wireless sensor",
        fromZigbee: [legacy.fromZigbee.matsee_garage_door_opener],
        toZigbee: [legacy.toZigbee.matsee_garage_door_opener, legacy.toZigbee.tuya_data_point_test],
        whiteLabel: [{vendor: "LoraTap", model: "GDC311ZBQ1"}],
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            const endpoint = device.getEndpoint(1);
            await reporting.bind(endpoint, coordinatorEndpoint, ["genBasic"]);
        },
        exposes: [
            e.binary("trigger", ea.STATE_SET, true, false).withDescription("Trigger the door movement"),
            e
                .binary("garage_door_contact", ea.STATE, false, true)
                .withDescription("Indicates if the garage door contact is closed (= true) or open (= false)"),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS0603", ["_TZE608_c75zqghm", "_TZE608_fmemczv1", "_TZE608_xkr8gep3", "_TZE608_lapuuoke"]),
        model: "TS0603",
        vendor: "Tuya",
        meta: {
            tuyaDatapoints: [
                [1, "state", tuya.valueConverter.raw],
                [3, "garage_door_contact", tuya.valueConverter.trueFalseInvert],
                [12, null, null],
            ],
        },
        description: "Garage door opener",
        configure: async (device, coordinatorEndpoint) => {
            const endpoint = device.getEndpoint(1);
            await reporting.bind(endpoint, coordinatorEndpoint, ["genBasic"]);
        },
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.binary("state", ea.STATE_SET, true, false).withDescription("Trigger the door movement"),
            e
                .binary("garage_door_contact", ea.STATE, true, false)
                .withDescription("Indicates if the garage door contact is closed (= true) or open (= false)"),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS0201", ["_TZ3000_qaaysllp"]),
        model: "LCZ030",
        vendor: "Tuya",
        description: "Temperature & humidity & illuminance sensor with display",
        fromZigbee: [fz.battery, fz.temperature, fz.humidity, fz.ts0201_temperature_humidity_alarm],
        toZigbee: [tz.ts0201_temperature_humidity_alarm],
        configure: async (device, coordinatorEndpoint) => {
            const endpoint = device.getEndpoint(1);
            // Enables reporting of measurement state changes
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            await reporting.bind(endpoint, coordinatorEndpoint, [
                "genBasic",
                "genPowerCfg",
                "msTemperatureMeasurement",
                "msRelativeHumidity",
                "manuSpecificTuya2",
            ]);
        },
        exposes: [
            e.temperature(),
            e.humidity(),
            e.battery(),
            e
                .numeric("alarm_temperature_max", ea.STATE_SET)
                .withUnit("°C")
                .withDescription("Alarm temperature max")
                .withValueMin(-20)
                .withValueMax(80),
            e
                .numeric("alarm_temperature_min", ea.STATE_SET)
                .withUnit("°C")
                .withDescription("Alarm temperature min")
                .withValueMin(-20)
                .withValueMax(80),
            e.numeric("alarm_humidity_max", ea.STATE_SET).withUnit("%").withDescription("Alarm humidity max").withValueMin(0).withValueMax(100),
            e.numeric("alarm_humidity_min", ea.STATE_SET).withUnit("%").withDescription("Alarm humidity min").withValueMin(0).withValueMax(100),
            e.enum("alarm_humidity", ea.STATE, ["below_min_humdity", "over_humidity", "off"]).withDescription("Alarm humidity status"),
            e.enum("alarm_temperature", ea.STATE, ["below_min_temperature", "over_temperature", "off"]).withDescription("Alarm temperature status"),
        ],
        extend: [m.illuminance()],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_auin8mzr"]),
        model: "TS0601_motion_sensor",
        vendor: "Tuya",
        description: "Human presence sensor AIR",
        fromZigbee: [legacy.fromZigbee.tuya_motion_sensor],
        toZigbee: [legacy.toZigbee.tuya_motion_sensor],
        exposes: [
            e.occupancy(),
            e.enum("o_sensitivity", ea.STATE_SET, Object.values(legacy.msLookups.OSensitivity)).withDescription("O-Sensitivity mode"),
            e.enum("v_sensitivity", ea.STATE_SET, Object.values(legacy.msLookups.VSensitivity)).withDescription("V-Sensitivity mode"),
            e.enum("led_status", ea.STATE_SET, ["ON", "OFF"]).withDescription("Led status switch"),
            e.numeric("vacancy_delay", ea.STATE_SET).withUnit("sec").withDescription("Vacancy delay").withValueMin(0).withValueMax(1000),
            e.numeric("light_on_luminance_prefer", ea.STATE_SET).withDescription("Light-On luminance prefer").withValueMin(0).withValueMax(10000),
            e.numeric("light_off_luminance_prefer", ea.STATE_SET).withDescription("Light-Off luminance prefer").withValueMin(0).withValueMax(10000),
            e.enum("mode", ea.STATE_SET, Object.values(legacy.msLookups.Mode)).withDescription("Working mode"),
            e.numeric("luminance_level", ea.STATE).withDescription("Luminance level"),
            e.numeric("reference_luminance", ea.STATE).withDescription("Reference luminance"),
            e.numeric("vacant_confirm_time", ea.STATE).withDescription("Vacant confirm time"),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_lu01t0zl", "_TZE200_vrfecyku", "_TZE200_ypprdwsl", "_TZE200_jkbljri7"]),
        model: "MIR-HE200-TY",
        vendor: "Tuya",
        description: "Human presence sensor with fall function",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        configure: async (device, coordinatorEndpoint) => {
            const endpoint = device.getEndpoint(1);
            await tuya.sendDataPointEnum(endpoint, legacy.dataPoints.trsfTumbleSwitch, 0);
        },
        exposes: [
            e.illuminance(),
            e.presence(),
            e.occupancy(),
            e.numeric("motion_speed", ea.STATE).withDescription("Speed of movement"),
            e
                .enum("motion_direction", ea.STATE, ["standing_still", "moving_forward", "moving_backward"])
                .withDescription("direction of movement from the point of view of the radar"),
            e
                .numeric("radar_sensitivity", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(10)
                .withValueStep(1)
                .withDescription("Sensitivity of the radar"),
            e
                .enum("radar_scene", ea.STATE_SET, ["default", "area", "toilet", "bedroom", "parlour", "office", "hotel"])
                .withDescription("Presets for sensitivity for presence and movement"),
            e.enum("tumble_switch", ea.STATE_SET, ["ON", "OFF"]).withDescription("Tumble status switch"),
            e
                .numeric("fall_sensitivity", ea.STATE_SET)
                .withValueMin(1)
                .withValueMax(10)
                .withValueStep(1)
                .withDescription("Fall sensitivity of the radar"),
            e
                .numeric("tumble_alarm_time", ea.STATE_SET)
                .withValueMin(1)
                .withValueMax(5)
                .withValueStep(1)
                .withUnit("min")
                .withDescription("Tumble alarm time"),
            e.enum("fall_down_status", ea.STATE, ["none", "maybe_fall", "fall"]).withDescription("Fall down status"),
            e.text("static_dwell_alarm", ea.STATE).withDescription("Static dwell alarm"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "presence", tuya.valueConverter.trueFalse1],
                [2, "radar_sensitivity", tuya.valueConverter.raw],
                [102, "occupancy", tuya.valueConverter.trueFalse1],
                [103, "illuminance", tuya.valueConverter.raw],
                [105, "tumble_switch", tuya.valueConverter.plus1],
                [106, "tumble_alarm_time", tuya.valueConverter.raw],
                [
                    112,
                    "radar_scene",
                    tuya.valueConverterBasic.lookup({
                        default: 0,
                        area: 1,
                        toilet: 2,
                        bedroom: 3,
                        parlour: 4,
                        office: 5,
                        hotel: 6,
                    }),
                ],
                [
                    114,
                    "motion_direction",
                    tuya.valueConverterBasic.lookup({
                        standing_still: 0,
                        moving_forward: 1,
                        moving_backward: 2,
                    }),
                ],
                [115, "motion_speed", tuya.valueConverter.raw],
                [116, "fall_down_status", tuya.valueConverterBasic.lookup({none: 0, maybe_fall: 1, fall: 2})],
                [117, "static_dwell_alarm", tuya.valueConverter.raw],
                [118, "fall_sensitivity", tuya.valueConverter.raw],
                // Below are ignored
                [101, null, null], // reset_flag_code
                [104, null, null], // detection_flag_code
                [107, null, null], // radar_check_end_code
                [108, null, null], // radar_check_start_code
                [109, null, null], // hw_version_code
                [110, null, null], // sw_version_code
                [111, null, null], // radar_id_code
            ],
        },
    },
    {
        zigbeeModel: ["TS0046"],
        model: "TS0046",
        vendor: "Tuya",
        description: "Wireless switch with 6 buttons",
        whiteLabel: [{vendor: "LoraTap", model: "SS9600ZB"}],
        fromZigbee: [tuya.fz.on_off_action, fz.battery],
        exposes: [
            e.battery(),
            e.action([
                "1_single",
                "1_double",
                "1_hold",
                "2_single",
                "2_double",
                "2_hold",
                "3_single",
                "3_double",
                "3_hold",
                "4_single",
                "4_double",
                "4_hold",
                "5_single",
                "5_double",
                "5_hold",
                "6_single",
                "6_double",
                "6_hold",
            ]),
        ],
        toZigbee: [],
        configure: tuya.configureMagicPacket,
    },
    {
        fingerprint: tuya.fingerprint("TS004F", ["_TZ3000_g9g2xnch", "_TZ3000_pcqjmcud"]),
        model: "YSR-MINI-Z",
        vendor: "Tuya",
        description: "2 in 1 dimming remote control and scene control",
        exposes: [
            e.battery(),
            e.action([
                "on",
                "off",
                "brightness_move_up",
                "brightness_step_up",
                "brightness_step_down",
                "brightness_move_down",
                "brightness_stop",
                "color_temperature_step_down",
                "color_temperature_step_up",
                "1_single",
                "1_double",
                "1_hold",
                "2_single",
                "2_double",
                "2_hold",
                "3_single",
                "3_double",
                "3_hold",
                "4_single",
                "4_double",
                "4_hold",
            ]),
            e
                .enum("operation_mode", ea.ALL, ["command", "event"])
                .withDescription('Operation mode: "command" - for group control, "event" - for clicks'),
        ],
        fromZigbee: [
            fz.battery,
            fz.command_on,
            fz.command_off,
            fz.command_step,
            fz.command_move,
            fz.command_stop,
            fz.command_step_color_temperature,
            tuya.fz.on_off_action,
            fz.tuya_operation_mode,
        ],
        toZigbee: [tz.tuya_operation_mode],
        extend: [tuya.modernExtend.tuyaBase({forceTimeUpdates: true})],
        configure: async (device, coordinatorEndpoint) => {
            const endpoint = device.getEndpoint(1);
            await endpoint.write("genOnOff", {tuyaOperationMode: 1});
            await endpoint.read("genOnOff", ["tuyaOperationMode"]);
            try {
                await endpoint.read(0xe001, [0xd011]);
            } catch {
                /* do nothing */
            }
            await endpoint.read("genPowerCfg", ["batteryVoltage", "batteryPercentageRemaining"]);
            await reporting.bind(endpoint, coordinatorEndpoint, ["genPowerCfg"]);
            await reporting.bind(endpoint, coordinatorEndpoint, ["genOnOff"]);
            await reporting.batteryPercentageRemaining(endpoint);
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_hkdl5fmv"]),
        model: "TS0601_rcbo",
        vendor: "Tuya",
        whiteLabel: [
            {vendor: "HOCH", model: "ZJSBL7-100Z"},
            {vendor: "WDYK", model: "ZJSBL7-100Z"},
        ],
        description: "DIN mount RCBO with smart energy metering",
        fromZigbee: [legacy.fromZigbee.hoch_din],
        toZigbee: [legacy.toZigbee.hoch_din],
        exposes: [
            e.text("meter_number", ea.STATE).withDescription("Meter number"),
            e.binary("state", ea.STATE_SET, "ON", "OFF").withDescription("State"),
            e.text("alarm", ea.STATE).withDescription("Alarm text"),
            e.binary("trip", ea.STATE_SET, "trip", "clear").withDescription("Trip"),
            e.binary("child_lock", ea.STATE_SET, "ON", "OFF").withDescription("Child lock"),
            e.enum("power_on_behavior", ea.STATE_SET, ["off", "on", "previous"]).withDescription("Power on behavior"),
            e.numeric("countdown_timer", ea.STATE_SET).withValueMin(0).withValueMax(86400).withUnit("s").withDescription("Countdown timer"),
            e.numeric("voltage_rms", ea.STATE).withUnit("V").withDescription("Voltage RMS"),
            e.numeric("current", ea.STATE).withUnit("A").withDescription("Current"),
            e.numeric("current_average", ea.STATE).withUnit("A").withDescription("Current average"),
            e.power(),
            e.voltage(),
            e.energy(),
            e.temperature(),
            e.numeric("power_l1", ea.STATE).withUnit("W").withDescription("Instantaneous measured power on phase 1"),
            e.numeric("power_l2", ea.STATE).withUnit("W").withDescription("Instantaneous measured power on phase 2"),
            e.numeric("power_l3", ea.STATE).withUnit("W").withDescription("Instantaneous measured power on phase 3"),
            e.numeric("energy_consumed", ea.STATE).withUnit("kWh").withDescription("Consumed energy"),
            e.enum("clear_device_data", ea.SET, [""]).withDescription("Clear device data"),
        ],
    },
    {
        zigbeeModel: ["ZG-101ZD"],
        fingerprint: tuya.fingerprint("TS004F", [
            "_TZ3000_4fjiwweb",
            "_TZ3000_uri7ongn",
            "_TZ3000_ixla93vd",
            "_TZ3000_qja6nq5z",
            "_TZ3000_402vrq2i",
            "_TZ3000_abrsvsou",
            "_TZ3000_gwkzibhs",
            "_TZ3000_ugi8ky6u",
        ]),
        model: "ERS-10TZBVK-AA",
        vendor: "Tuya",
        description: "Smart knob",
        fromZigbee: [
            fz.command_step,
            fz.command_toggle,
            fz.command_move_hue,
            fz.command_step_color_temperature,
            fz.command_stop_move_raw,
            fz.tuya_multi_action,
            fz.tuya_operation_mode,
            fz.battery,
        ],
        whiteLabel: [
            tuya.whitelabel("Tuya", "ZG-101Z_D_1", "Smart knob", ["_TZ3000_402vrq2i"]),
            tuya.whitelabel("Moes", "ZG-101ZD", "Smart knob", ["_TZ3000_gwkzibhs"]),
            tuya.whitelabel("Immax", "07768L", "NEO Smart rotary knob", ["_TZ3000_ugi8ky6u"]),
        ],
        toZigbee: [tz.tuya_operation_mode],
        exposes: [
            e.action([
                "toggle",
                "brightness_step_up",
                "brightness_step_down",
                "color_temperature_step_up",
                "color_temperature_step_down",
                "saturation_move",
                "hue_move",
                "hue_stop",
                "single",
                "double",
                "hold",
                "rotate_left",
                "rotate_right",
            ]),
            e.numeric("action_step_size", ea.STATE).withValueMin(0).withValueMax(255),
            e.numeric("action_transition_time", ea.STATE).withUnit("s"),
            e.numeric("action_rate", ea.STATE).withValueMin(0).withValueMax(255),
            e.battery(),
            e
                .enum("operation_mode", ea.ALL, ["command", "event"])
                .withDescription('Operation mode: "command" - for group control, "event" - for clicks'),
        ],
        configure: async (device, coordinatorEndpoint) => {
            const endpoint = device.getEndpoint(1);
            await endpoint.read("genBasic", [0x0004, 0x000, 0x0001, 0x0005, 0x0007, 0xfffe]);
            await endpoint.write("genOnOff", {tuyaOperationMode: 1});
            await endpoint.read("genOnOff", ["tuyaOperationMode"]);
            try {
                await endpoint.read(0xe001, [0xd011]);
            } catch {
                /* do nothing */
            }
            await endpoint.read("genPowerCfg", ["batteryVoltage", "batteryPercentageRemaining"]);
            await reporting.bind(endpoint, coordinatorEndpoint, ["genPowerCfg"]);
            await reporting.bind(endpoint, coordinatorEndpoint, ["genOnOff"]);
            await reporting.batteryPercentageRemaining(endpoint);
        },
    },
    {
        // Only the ones with applicationVersion 145 should be detected as this, e.g. applicationVersion 66 should be detected as ERS-10TZBVK-AA.
        // https://github.com/Koenkk/zigbee2mqtt/issues/25053
        fingerprint: [
            {
                modelID: "TS004F",
                manufacturerName: "_TZ3000_abrsvsou",
                applicationVersion: 145,
                priority: 1,
            },
        ],
        model: "ZG-101Z/D",
        vendor: "Tuya",
        description: "Smart knob",
        fromZigbee: [fz.tuya_multi_action, fz.battery, fz.tuya_operation_mode],
        exposes: [
            e.action(["rotate_left", "rotate_right"]),
            e
                .enum("operation_mode", ea.ALL, ["command", "event"])
                .withDescription('Operation mode: "command" - for group control, "event" - for clicks'),
        ],
        extend: [m.battery(), tuya.modernExtend.tuyaMagicPacket()],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_kzm5w4iz"]),
        model: "TS0601_vibration_sensor",
        vendor: "Tuya",
        description: "Smart vibration sensor",
        fromZigbee: [legacy.fromZigbee.tuya_smart_vibration_sensor],
        toZigbee: [],
        exposes: [e.contact(), e.battery(), e.vibration()],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_yi4jtqq1", "_TZE200_khx7nnka", "_TZE204_khx7nnka"]),
        model: "XFY-CGQ-ZIGB",
        vendor: "Tuya",
        description: "Illuminance sensor",
        fromZigbee: [legacy.fromZigbee.tuya_illuminance_sensor],
        toZigbee: [],
        exposes: [e.illuminance(), e.brightness_state()],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_kltffuzl", "_TZE200_fwoorn8y"]),
        model: "TM001-ZA/TM081",
        vendor: "Tuya",
        description: "Door and window sensor",
        fromZigbee: [legacy.fromZigbee.tm081],
        toZigbee: [],
        exposes: [e.contact(), e.battery()],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_2m38mh6k"]),
        model: "SS9600ZB",
        vendor: "Tuya",
        description: "6 gang remote",
        exposes: [
            e.battery(),
            e.action([
                "1_single",
                "1_double",
                "1_hold",
                "2_single",
                "2_double",
                "2_hold",
                "3_single",
                "3_double",
                "3_hold",
                "4_single",
                "4_double",
                "4_hold",
                "5_single",
                "5_double",
                "5_hold",
                "6_single",
                "6_double",
                "6_hold",
            ]),
        ],
        fromZigbee: [legacy.fromZigbee.tuya_remote],
        toZigbee: [],
    },
    {
        zigbeeModel: ["TS0052"],
        model: "TS0052",
        vendor: "Tuya",
        description: "Zigbee dimmer module 1 channel",
        extend: [
            tuyaLight({
                powerOnBehavior: true,
                configureReporting: true,
                switchType: true,
                minBrightness: "attribute",
            }),
        ],
        whiteLabel: [tuya.whitelabel("Tuya", "FS-05R", "Mini dimmable switch 1 channel", ["_TZ3000_mgusv51k"])],
    },
    {
        fingerprint: tuya.fingerprint("TS0052", ["_TZ3000_zjtxnoft", "_TZ3000_kvwrdf47"]),
        model: "TS0052_2",
        vendor: "Tuya",
        description: "Zigbee dimmer module 2 channel",
        extend: [
            m.deviceEndpoints({endpoints: {l1: 1, l2: 2}}),
            tuyaLight({
                powerOnBehavior: true,
                configureReporting: true,
                switchType: true,
                minBrightness: "attribute",
                endpointNames: ["l1", "l2"],
            }),
        ],
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", [
            "_TZE200_ikvncluo",
            "_TZE200_lyetpprm",
            "_TZE200_jva8ink8",
            "_TZE204_xpq2rzhq",
            "_TZE200_holel4dk",
            "_TZE200_xpq2rzhq",
            "_TZE200_wukb7rhc",
            "_TZE204_xsm7l9xa",
            "_TZE204_ztc6ggyl",
            "_TZE200_ztc6ggyl",
            "_TZE200_sgpeacqp",
            "_TZE204_fwondbzy",
            "_TZE284_fwondbzy",
        ]),
        model: "TS0601_smart_human_presence_sensor_1",
        vendor: "Tuya",
        description: "Smart Human presence sensor",
        fromZigbee: [legacy.fz.tuya_smart_human_presense_sensor],
        toZigbee: [legacy.tz.tuya_smart_human_presense_sensor],
        whiteLabel: [
            tuya.whitelabel("Tuya", "ZY-M100-L", "Ceiling human breathe sensor", ["_TZE204_ztc6ggyl"]),
            tuya.whitelabel("Moes", "ZSS-QY-HP", "Human presence sensor", ["_TZE204_fwondbzy", "_TZE284_fwondbzy"]),
        ],
        exposes: [
            e.illuminance(),
            e.presence(),
            e.numeric("target_distance", ea.STATE).withDescription("Distance to target").withUnit("m"),
            e.numeric("radar_sensitivity", ea.STATE_SET).withValueMin(0).withValueMax(9).withValueStep(1).withDescription("sensitivity of the radar"),
            e
                .numeric("minimum_range", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(9.5)
                .withValueStep(0.15)
                .withDescription("Minimum range")
                .withUnit("m"),
            e
                .numeric("maximum_range", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(9.5)
                .withValueStep(0.15)
                .withDescription("Maximum range")
                .withUnit("m"),
            e
                .numeric("detection_delay", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(10)
                .withValueStep(0.1)
                .withDescription("Detection delay")
                .withUnit("s"),
            e.numeric("fading_time", ea.STATE_SET).withValueMin(0).withValueMax(1500).withValueStep(1).withDescription("Fading time").withUnit("s"),
            // e.text('cli', ea.STATE).withDescription('not recognize'),
            e
                .enum("self_test", ea.STATE, Object.values(legacy.tuyaHPSCheckingResult))
                .withDescription("Self_test, possible results: checking, check_success, check_failure, others, comm_fault, radar_fault."),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE284_atuj3i0w"]),
        model: "M8Pro",
        vendor: "Tuya",
        description: "4 gang switch with LCD",
        extend: [
            tuyaWeatherForecast({includeCurrentWeather: true, numberOfForecastDays: 3, correctForNegativeValues: true}),
            tuyaBase({dp: true}),
            m.deviceEndpoints({endpoints: {l1: 1, l2: 1, l3: 1, l4: 1}}),
        ],
        exposes: [
            tuya.exposes.switch().withEndpoint("l1"),
            tuya.exposes.switch().withEndpoint("l2"),
            tuya.exposes.switch().withEndpoint("l3"),
            tuya.exposes.switch().withEndpoint("l4"),
            e.text("name", ea.STATE_SET).withEndpoint("l1").withDescription("Name for Switch 1"),
            e.text("name", ea.STATE_SET).withEndpoint("l2").withDescription("Name for Switch 2"),
            e.text("name", ea.STATE_SET).withEndpoint("l3").withDescription("Name for Switch 3"),
            e.text("name", ea.STATE_SET).withEndpoint("l4").withDescription("Name for Switch 4"),
            e.text("scene_name", ea.STATE_SET).withEndpoint("l1").withDescription("Name for Scene 1"),
            e.text("scene_name", ea.STATE_SET).withEndpoint("l2").withDescription("Name for Scene 2"),
            e.text("scene_name", ea.STATE_SET).withEndpoint("l3").withDescription("Name for Scene 3"),
            e.text("scene_name", ea.STATE_SET).withEndpoint("l4").withDescription("Name for Scene 4"),
            e.enum("mode", ea.STATE_SET, ["switch_1", "scene_1", "smart_light_1"]).withEndpoint("l1").withDescription("Switch1 mode"),
            e.enum("mode", ea.STATE_SET, ["switch_1", "scene_1", "smart_light_1"]).withEndpoint("l2").withDescription("Switch2 mode"),
            e.enum("mode", ea.STATE_SET, ["switch_1", "scene_1", "smart_light_1"]).withEndpoint("l3").withDescription("Switch3 mode"),
            e.enum("mode", ea.STATE_SET, ["switch_1", "scene_1", "smart_light_1"]).withEndpoint("l4").withDescription("Switch4 mode"),
            e.action(["scene_1", "scene_2", "scene_3", "scene_4"]),

            e.binary("backlight", ea.ALL, "ON", "OFF").withDescription("Backlight"),
            e.enum("indicator_switch", ea.STATE_SET, ["status", "switch_position", "off"]).withDescription("Indicator switch"),
            e.binary("backlight_switch", ea.ALL, "ON", "OFF").withDescription("Backlight switch"),

            e.numeric("temperature_1", ea.STATE_SET).withValueMin(-65).withValueMax(99).withDescription("Temperature"),
            e.enum("condition_1", ea.STATE_SET, Object.keys(tuya.M8ProTuyaWeatherCondition)).withDescription("Weather condition"),
        ],
        meta: {
            tuyaDatapoints: [
                [24, "state_l1", tuya.valueConverter.onOff],
                [25, "state_l2", tuya.valueConverter.onOff],
                [26, "state_l3", tuya.valueConverter.onOff],
                [27, "state_l4", tuya.valueConverter.onOff],
                [103, "name_l1", convLocal.name],
                [104, "name_l2", convLocal.name],
                [105, "name_l3", convLocal.name],
                [106, "name_l4", convLocal.name],
                [107, "scene_name_l1", convLocal.name],
                [108, "scene_name_l2", convLocal.name],
                [109, "scene_name_l3", convLocal.name],
                [110, "scene_name_l4", convLocal.name],
                [18, "mode_l1", tuya.valueConverterBasic.lookup({switch_1: tuya.enum(0), scene_1: tuya.enum(1), smart_light_1: tuya.enum(2)})],
                [19, "mode_l2", tuya.valueConverterBasic.lookup({switch_1: tuya.enum(0), scene_1: tuya.enum(1), smart_light_1: tuya.enum(2)})],
                [20, "mode_l3", tuya.valueConverterBasic.lookup({switch_1: tuya.enum(0), scene_1: tuya.enum(1), smart_light_1: tuya.enum(2)})],
                [21, "mode_l4", tuya.valueConverterBasic.lookup({switch_1: tuya.enum(0), scene_1: tuya.enum(1), smart_light_1: tuya.enum(2)})],
                [1, "action", tuya.valueConverter.static("scene_1")],
                [2, "action", tuya.valueConverter.static("scene_2")],
                [3, "action", tuya.valueConverter.static("scene_3")],
                [4, "action", tuya.valueConverter.static("scene_4")],
                [101, "backlight", tuya.valueConverter.onOff],
                [36, "backlight_switch", tuya.valueConverter.onOff],
                [37, "indicator_switch", tuya.valueConverterBasic.lookup({status: tuya.enum(0), switch_position: tuya.enum(1), off: tuya.enum(2)})],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_bmdsp6bs"]),
        model: "Y1_IN",
        vendor: "Tuya",
        description: "Smart human presence sensor 24G",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.presence(),
            e.illuminance(),
            e.numeric("keep_sensitivity", ea.STATE_SET).withValueMin(0).withValueMax(10).withValueStep(1).withDescription("Keep sensitivity"),
            e.numeric("trigger_sensitivity", ea.STATE_SET).withValueMin(1).withValueMax(20).withValueStep(1).withDescription("Trigger sensitivity"),
            e
                .numeric("fading_time", ea.STATE_SET)
                .withValueMin(1)
                .withValueMax(60)
                .withValueStep(1)
                .withDescription("Presence timeout")
                .withUnit("s"),
            e.numeric("target_distance", ea.STATE).withDescription("Distance to target").withUnit("m"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "presence", tuya.valueConverter.trueFalse1],
                [102, "fading_time", tuya.valueConverter.raw],
                [103, "illuminance", tuya.valueConverter.raw],
                [110, "keep_sensitivity", tuya.valueConverter.raw],
                [114, "trigger_sensitivity", tuya.valueConverter.raw],
                [182, "target_distance", tuya.valueConverter.divideBy10],
                [183, null, null],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_sxm7l9xa", "_TZE204_e5m9c5hl"]),
        model: "ZY-M100-S_1",
        vendor: "Tuya",
        description: "Mini human breathe sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        whiteLabel: [tuya.whitelabel("Wenzhi", "WZ-M100-W", "Human presence sensor", ["_TZE204_e5m9c5hl"])],
        exposes: [
            e.illuminance(),
            e.presence(),
            e.numeric("target_distance", ea.STATE).withDescription("Distance to target").withUnit("m"),
            e.numeric("radar_sensitivity", ea.STATE_SET).withValueMin(0).withValueMax(9).withValueStep(1).withDescription("sensitivity of the radar"),
            e
                .numeric("minimum_range", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(9.5)
                .withValueStep(0.15)
                .withDescription("Minimum range")
                .withUnit("m"),
            e
                .numeric("maximum_range", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(9.5)
                .withValueStep(0.15)
                .withDescription("Maximum range")
                .withUnit("m"),
            e
                .numeric("detection_delay", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(10)
                .withValueStep(0.1)
                .withDescription("Detection delay")
                .withUnit("s"),
            e.numeric("fading_time", ea.STATE_SET).withValueMin(0.5).withValueMax(1500).withValueStep(1).withDescription("Fading time").withUnit("s"),
        ],
        meta: {
            tuyaDatapoints: [
                [104, "illuminance", tuya.valueConverter.raw],
                [105, "presence", tuya.valueConverter.trueFalse1],
                [106, "radar_sensitivity", tuya.valueConverter.raw],
                [107, "maximum_range", tuya.valueConverter.divideBy100],
                [108, "minimum_range", tuya.valueConverter.divideBy100],
                [109, "target_distance", tuya.valueConverter.divideBy100],
                [110, "fading_time", tuya.valueConverter.divideBy10],
                [111, "detection_delay", tuya.valueConverter.divideBy10],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_qasjif9e", "_TZE204_ztqnh5cg", "_TZE204_iadro9bf", "_TZE284_iadro9bf"]),
        model: "ZY-M100-S_2",
        vendor: "Tuya",
        description: "Mini human breathe sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.illuminance(),
            e.presence(),
            e.numeric("target_distance", ea.STATE).withDescription("Distance to target").withUnit("m"),
            e.numeric("radar_sensitivity", ea.STATE_SET).withValueMin(0).withValueMax(9).withValueStep(1).withDescription("sensitivity of the radar"),
            e
                .numeric("minimum_range", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(9.5)
                .withValueStep(0.15)
                .withDescription("Minimum range")
                .withUnit("m"),
            e
                .numeric("maximum_range", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(9.5)
                .withValueStep(0.15)
                .withDescription("Maximum range")
                .withUnit("m"),
            e
                .numeric("detection_delay", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(10)
                .withValueStep(0.1)
                .withDescription("Detection delay")
                .withUnit("s"),
            e.numeric("fading_time", ea.STATE_SET).withValueMin(0.5).withValueMax(1500).withValueStep(1).withDescription("Fading time").withUnit("s"),
        ],
        meta: {
            tuyaDatapoints: [
                [
                    1,
                    "presence",
                    {
                        from: (v: number, meta: Fz.Meta, options?: KeyValue) => {
                            if (meta.device.manufacturerName === "_TZE284_iadro9bf") {
                                return tuya.valueConverter.trueFalse0.from(v);
                            }
                            return tuya.valueConverter.trueFalse1.from(v);
                        },
                    },
                ],
                [9, "target_distance", tuya.valueConverter.divideBy100],
                [12, "illuminance", tuya.valueConverter.raw], // _TZE284_iadro9bf
                [104, "illuminance", tuya.valueConverter.raw],
                [2, "radar_sensitivity", tuya.valueConverter.raw],
                [4, "maximum_range", tuya.valueConverter.divideBy100],
                [3, "minimum_range", tuya.valueConverter.divideBy100],
                [102, "fading_time", tuya.valueConverter.divideBy10],
                [101, "detection_delay", tuya.valueConverter.divideBy10],
            ],
        },
        whiteLabel: [tuya.whitelabel("iHseno", "TY_24G_Sensor_V2", "Human presence sensor 24G", ["_TZE204_ztqnh5cg"])],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_laokfqwu"]),
        model: "WZ-M100",
        vendor: "Wenzhi",
        description: "Human presence sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.illuminance(),
            e.presence(),
            e
                .numeric("target_distance", ea.STATE)
                .withValueMin(0)
                .withValueMax(10)
                .withValueStep(0.01)
                .withDescription("Distance to target")
                .withUnit("m"),
            e.numeric("sensitivity", ea.STATE_SET).withValueMin(1).withValueMax(9).withValueStep(1).withDescription("sensitivity of the radar"),
            e
                .numeric("minimum_range", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(10.0)
                .withValueStep(0.1)
                .withDescription("minimum detection range")
                .withUnit("m"),
            e
                .numeric("maximum_range", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(10.0)
                .withValueStep(0.1)
                .withDescription("maximum detection range")
                .withUnit("m"),
            e
                .numeric("interval_time", ea.STATE_SET)
                .withValueMin(1)
                .withValueMax(3600)
                .withValueStep(1)
                .withDescription("interval_time")
                .withUnit("s"),
            e
                .numeric("detection_delay", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(10.0)
                .withValueStep(0.1)
                .withDescription("detection delay")
                .withUnit("s"),
            e
                .numeric("fading_time", ea.STATE_SET)
                .withValueMax(1500)
                .withValueMin(5)
                .withValueStep(5)
                .withDescription("presence timeout")
                .withUnit("s"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "presence", tuya.valueConverter.trueFalse1],
                [2, "sensitivity", tuya.valueConverter.raw],
                [3, "minimum_range", tuya.valueConverter.divideBy100],
                [4, "maximum_range", tuya.valueConverter.divideBy100],
                [9, "target_distance", tuya.valueConverter.divideBy100],
                [103, "illuminance", tuya.valueConverter.raw],
                [104, "interval_time", tuya.valueConverter.raw],
                [105, "detection_delay", tuya.valueConverter.divideBy10],
                [106, "fading_time", tuya.valueConverter.divideBy10],
            ],
        },
    },
    {
        zigbeeModel: ["ZG-205ZL"],
        fingerprint: [
            {modelID: "TS0225", manufacturerName: "_TZE200_hl0ss9oa"},
            {modelID: "CK-BL702-MWS-01(7016)", manufacturerName: "ZGAF-205L"},
            {modelID: "TS0225", manufacturerName: "_TZE200_y4mdop0b"},
        ],
        model: "ZG-205ZL",
        vendor: "Tuya",
        description: "24Ghz/5.8GHz human presence sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.presence(),
            e.enum("motion_state", ea.STATE, ["none", "large", "small", "static"]).withDescription("Motion state"),
            e.illuminance(),
            e
                .numeric("fading_time", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(3600)
                .withValueStep(1)
                .withUnit("s")
                .withDescription("Presence keep time"),
            e
                .numeric("large_motion_detection_distance", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(10)
                .withValueStep(0.01)
                .withUnit("m")
                .withDescription("Large motion detection distance"),
            e
                .numeric("large_motion_detection_sensitivity", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(10)
                .withValueStep(1)
                .withUnit("x")
                .withDescription("Large motion detection sensitivity"),
            e
                .numeric("small_motion_detection_distance", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(6)
                .withValueStep(0.01)
                .withUnit("m")
                .withDescription("Small motion detection distance"),
            e
                .numeric("small_motion_detection_sensitivity", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(10)
                .withValueStep(1)
                .withUnit("x")
                .withDescription("Small motion detection sensitivity"),
            e
                .numeric("static_detection_distance", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(6)
                .withValueStep(0.01)
                .withUnit("m")
                .withDescription("Static detection distance"),
            e
                .numeric("static_detection_sensitivity", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(10)
                .withValueStep(1)
                .withUnit("x")
                .withDescription("Static detection sensitivity"),
            e.enum("mode", ea.STATE_SET, ["off", "arm", "alarm", "doorbell"]).withDescription("Working mode"),
            e.enum("alarm_volume", ea.STATE_SET, ["mute", "low", "medium", "high"]).withDescription("Alarm volume"),
            e.numeric("alarm_time", ea.STATE_SET).withValueMin(1).withValueMax(60).withValueStep(1).withUnit("m").withDescription("Alarm time"),
            e.binary("light_mode", ea.STATE_SET, "ON", "OFF").withDescription("LED indicator mode"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "presence", tuya.valueConverter.trueFalse1],
                [20, "illuminance", tuya.valueConverter.raw],
                [
                    11,
                    "motion_state",
                    tuya.valueConverterBasic.lookup({
                        none: tuya.enum(0),
                        large: tuya.enum(1),
                        small: tuya.enum(2),
                        static: tuya.enum(3),
                        far: tuya.enum(4),
                        near: tuya.enum(5),
                    }),
                ],
                [12, "fading_time", tuya.valueConverter.raw],
                [13, "large_motion_detection_distance", tuya.valueConverter.divideBy100],
                [15, "large_motion_detection_sensitivity", tuya.valueConverter.raw],
                [14, "small_motion_detection_distance", tuya.valueConverter.divideBy100],
                [16, "small_motion_detection_sensitivity", tuya.valueConverter.raw],
                [103, "static_detection_distance", tuya.valueConverter.divideBy100],
                [104, "static_detection_sensitivity", tuya.valueConverter.raw],
                [
                    105,
                    "mode",
                    tuya.valueConverterBasic.lookup({
                        arm: tuya.enum(0),
                        off: tuya.enum(1),
                        alarm: tuya.enum(2),
                        doorbell: tuya.enum(3),
                    }),
                ],
                [
                    102,
                    "alarm_volume",
                    tuya.valueConverterBasic.lookup({
                        low: tuya.enum(0),
                        medium: tuya.enum(1),
                        high: tuya.enum(2),
                        mute: tuya.enum(3),
                    }),
                ],
                [101, "alarm_time", tuya.valueConverter.raw],
                [24, "light_mode", tuya.valueConverter.onOff],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_whkgqxse"]),
        model: "JM-TRH-ZGB-V1",
        vendor: "Tuya",
        description: "Temperature & humidity sensor with clock",
        fromZigbee: [legacy.fromZigbee.nous_lcd_temperature_humidity_sensor, fz.ignore_tuya_set_time],
        toZigbee: [legacy.toZigbee.nous_lcd_temperature_humidity_sensor],
        extend: [tuya.modernExtend.tuyaBase({forceTimeUpdates: true, bindBasicOnConfigure: true, timeStart: "1970"})],
        exposes: [
            e.temperature(),
            e.humidity(),
            e.battery(),
            e
                .numeric("temperature_report_interval", ea.STATE_SET)
                .withUnit("min")
                .withValueMin(5)
                .withValueMax(60)
                .withValueStep(5)
                .withDescription("Temperature Report interval"),
            e.enum("temperature_unit_convert", ea.STATE_SET, ["celsius", "fahrenheit"]).withDescription("Current display unit"),
            e.enum("temperature_alarm", ea.STATE, ["canceled", "lower_alarm", "upper_alarm"]).withDescription("Temperature alarm status"),
            e.numeric("max_temperature", ea.STATE_SET).withUnit("°C").withValueMin(-20).withValueMax(60).withDescription("Alarm temperature max"),
            e.numeric("min_temperature", ea.STATE_SET).withUnit("°C").withValueMin(-20).withValueMax(60).withDescription("Alarm temperature min"),
            e.enum("humidity_alarm", ea.STATE, ["canceled", "lower_alarm", "upper_alarm"]).withDescription("Humidity alarm status"),
            e.numeric("max_humidity", ea.STATE_SET).withUnit("%").withValueMin(0).withValueMax(100).withDescription("Alarm humidity max"),
            e.numeric("min_humidity", ea.STATE_SET).withUnit("%").withValueMin(0).withValueMax(100).withDescription("Alarm humidity min"),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_zyrdrmno"]),
        model: "ZB-Sm",
        vendor: "Tuya",
        description: "Tubular motor",
        fromZigbee: [legacy.fromZigbee.zb_sm_cover],
        toZigbee: [legacy.toZigbee.zb_sm_cover],
        extend: [tuya.modernExtend.tuyaBase()],
        exposes: [
            e.cover_position().setAccess("position", ea.STATE_SET),
            e.enum("goto_positon", ea.SET, ["25", "50", "75", "FAVORITE"]),
            e.enum("motor_state", ea.STATE, ["OPENING", "CLOSING", "STOPPED"]),
            e.numeric("active_power", ea.STATE).withDescription("Active power").withUnit("mWt"),
            e.numeric("cycle_count", ea.STATE).withDescription("Cycle count"),
            e.numeric("cycle_time", ea.STATE).withDescription("Cycle time").withUnit("ms"),
            e.enum("top_limit", ea.STATE_SET, ["SET", "CLEAR"]).withDescription("Setup or clear top limit"),
            e.enum("bottom_limit", ea.STATE_SET, ["SET", "CLEAR"]).withDescription("Setup or clear bottom limit"),
            e.numeric("favorite_position", ea.STATE_SET).withValueMin(0).withValueMax(100).withDescription("Favorite position of this cover"),
            e.binary("reverse_direction", ea.STATE_SET, true, false).withDescription("Inverts the cover direction"),
            e.text("motor_type", ea.STATE),
            e.enum("report", ea.SET, [""]),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS1201", [
            "_TZ3290_7v1k4vufotpowp9z",
            "_TZ3290_rlkmy85q4pzoxobl",
            "_TZ3290_jxvzqatwgsaqzx1u",
            "_TZ3290_lypnqvlem5eq1ree",
            "_TZ3290_uc8lwbi2",
            "_TZ3290_nba3knpsarkawgnt",
            "_TZ3290_8xzb2ghn",
        ]),
        model: "ZS06",
        vendor: "Tuya",
        description: "Universal smart IR remote control",
        fromZigbee: [
            fzZosung.zosung_send_ir_code_00,
            fzZosung.zosung_send_ir_code_01,
            fzZosung.zosung_send_ir_code_02,
            fzZosung.zosung_send_ir_code_03,
            fzZosung.zosung_send_ir_code_04,
            fzZosung.zosung_send_ir_code_05,
        ],
        toZigbee: [tzZosung.zosung_ir_code_to_send, tzZosung.zosung_learn_ir_code],
        exposes: [ez.learn_ir_code(), ez.learned_ir_code(), ez.ir_code_to_send()],
        whiteLabel: [
            tuya.whitelabel("Tuya", "UFO-R4Z", "Universal smart IR remote control", ["_TZ3290_rlkmy85q4pzoxobl"]),
            tuya.whitelabel("QA", "QAIRZPRO", "Infrared hub pro", [
                "_TZ3290_jxvzqatwgsaqzx1u",
                "_TZ3290_lypnqvlem5eq1ree",
                "_TZ3290_yac64inudpovoaba",
            ]),
            tuya.whitelabel("Zemismart", "ZM-18-USB", "Universal smart IR remote control", ["_TZ3290_uc8lwbi2"]),
            tuya.whitelabel("Zemismart", "ZXMIR-02", "Universal smart IR remote control", ["_TZ3290_8xzb2ghn"]),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS0201", ["_TZ3000_itnrsufe"]),
        model: "KCTW1Z",
        vendor: "Tuya",
        description: "Temperature & humidity sensor with LCD",
        fromZigbee: [fz.temperature, fzLocal.humidity10, fzLocal.temperature_unit, fz.battery, fz.ignore_tuya_set_time],
        toZigbee: [tzLocal.temperature_unit],
        extend: [tuya.modernExtend.tuyaBase({forceTimeUpdates: true})],
        exposes: [
            e.temperature(),
            e.humidity(),
            e.battery(),
            e.battery_voltage(),
            e.enum("temperature_unit", ea.STATE_SET, ["celsius", "fahrenheit"]).withDescription("Current display unit"),
        ],
        configure: async (device, coordinatorEndpoint) => {
            const endpoint = device.getEndpoint(1);
            await reporting.bind(endpoint, coordinatorEndpoint, ["genPowerCfg", "msTemperatureMeasurement", "msRelativeHumidity"]);
            await endpoint.read("genPowerCfg", ["batteryVoltage", "batteryPercentageRemaining"]);
            await reporting.batteryPercentageRemaining(endpoint);
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_0u3bj3rc", "_TZE200_v6ossqfy", "_TZE200_mx6u6l4y"]),
        model: "TS0601_human_presence_sensor",
        vendor: "Tuya",
        description: "Human presence sensor Zigbee",
        fromZigbee: [legacy.fromZigbee.hpsz],
        toZigbee: [legacy.toZigbee.hpsz],
        extend: [tuya.modernExtend.tuyaBase({forceTimeUpdates: true})],
        exposes: [
            e.presence(),
            e.numeric("duration_of_attendance", ea.STATE).withUnit("min").withDescription("Shows the presence duration in minutes"),
            e.numeric("duration_of_absence", ea.STATE).withUnit("min").withDescription("Shows the duration of the absence in minutes"),
            e.binary("led_state", ea.STATE_SET, true, false).withDescription("Turns the onboard LED on or off"),
        ],
    },
    {
        zigbeeModel: ["ZG-227Z", "ZG-227ZL"],
        fingerprint: tuya.fingerprint("TS0601", [
            "_TZE200_qoy0ekbd",
            "_TZE200_znbl8dj5",
            "_TZE200_a8sdabtg",
            "_TZE200_dikkika5",
            "_TZE200_vs0skpuc",
            "_TZE200_3xfjp0ag",
            "_TZE200_ehhrv2e3",
            "_TZE200_lhqtjwax",
        ]),
        model: "ZG-227ZL",
        vendor: "Tuya",
        description: "Temperature & humidity LCD sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.temperature(),
            e.humidity(),
            tuya.exposes.temperatureUnit(),
            tuya.exposes.temperatureCalibration(),
            tuya.exposes.humidityCalibration(),
            e.battery(),
        ],
        whiteLabel: [
            tuya.whitelabel("HOBEIAN", "ZG-227Z", "Temperature and humidity sensor", ["_TZE200_a8sdabtg", "_TZE200_vs0skpuc", "_TZE200_ehhrv2e3"]),
            tuya.whitelabel("KOJIMA", "KOJIMA-THS-ZG-LCD", "Temperature and humidity sensor", ["_TZE200_dikkika5"]),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "temperature", tuya.valueConverter.divideBy10],
                [2, "humidity", tuya.valueConverter.raw],
                [4, "battery", tuya.valueConverter.raw],
                [9, "temperature_unit", tuya.valueConverter.temperatureUnit],
                [23, "temperature_calibration", tuya.valueConverter.localTempCalibration3],
                [24, "humidity_calibration", tuya.valueConverter.localTempCalibration2],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_j7sgd8po"]),
        model: "S8",
        vendor: "SODA",
        description: "S8 premium window handle",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.battery(),
            e.battery_low(),
            e.binary("vacation", ea.STATE_SET, "ON", "OFF").withDescription("Vacation mode"),
            e.enum("alarm", ea.STATE, ["ALARM", "IDLE"]).withDescription("Alarm"),
            e.binary("alarm_switch", ea.STATE_SET, "ON", "OFF").withDescription("Alarm enable"),
            e.binary("handlesound", ea.STATE_SET, "ON", "OFF").withDescription("Handle closed sound"),
            e.enum("opening_mode", ea.STATE, ["closed", "tilted"]).withDescription("Window tilt"),
            e.temperature(),
            e.humidity(),
            e.binary("keysound", ea.STATE_SET, "ON", "OFF").withDescription("Key beep sound"),
            e.enum("sensitivity", ea.STATE_SET, ["off", "low", "medium", "high", "max"]).withDescription("Sensitivity of the alarm sensor"),
            e.enum("position", ea.STATE, ["up", "right", "down", "left"]),
            e.enum("button_left", ea.STATE, ["released", "pressed"]),
            e.enum("button_right", ea.STATE, ["released", "pressed"]),
            e
                .numeric("duration", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(300)
                .withValueStep(1)
                .withUnit("sec")
                .withDescription("Duration of the alarm")
                .withPreset("default", 180, "Default value"),
            e
                .numeric("update_frequency", ea.STATE_SET)
                .withUnit("min")
                .withDescription("Update frequency")
                .withValueMin(0)
                .withValueMax(700)
                .withPreset("default", 20, "Default value"),
            e.enum("calibrate", ea.STATE_SET, ["clear", "execute"]),
        ],
        meta: {
            tuyaDatapoints: [
                [3, "battery", tuya.valueConverter.raw],
                [8, "temperature", tuya.valueConverter.divideBy10],
                [101, "humidity", tuya.valueConverter.raw],
                [
                    102,
                    "alarm",
                    tuya.valueConverterBasic.lookup({
                        IDLE: tuya.enum(0),
                        ALARM: tuya.enum(1),
                    }),
                ],
                [
                    103,
                    "opening_mode",
                    tuya.valueConverterBasic.lookup({
                        closed: tuya.enum(0),
                        tilted: tuya.enum(1),
                    }),
                ],
                [
                    104,
                    "position",
                    tuya.valueConverterBasic.lookup({
                        left: tuya.enum(4),
                        up: tuya.enum(1),
                        down: tuya.enum(2),
                        right: tuya.enum(3),
                    }),
                ],
                [
                    105,
                    "button_left",
                    tuya.valueConverterBasic.lookup({
                        released: tuya.enum(0),
                        pressed: tuya.enum(1),
                    }),
                ],
                [
                    106,
                    "button_right",
                    tuya.valueConverterBasic.lookup({
                        released: tuya.enum(0),
                        pressed: tuya.enum(1),
                    }),
                ],
                [
                    107,
                    "vacation",
                    tuya.valueConverterBasic.lookup({
                        OFF: tuya.enum(0),
                        ON: tuya.enum(1),
                    }),
                ],
                [
                    108,
                    "sensitivity",
                    tuya.valueConverterBasic.lookup({
                        off: tuya.enum(0),
                        low: tuya.enum(1),
                        medium: tuya.enum(2),
                        high: tuya.enum(3),
                        max: tuya.enum(4),
                    }),
                ],
                [
                    109,
                    "alarm_switch",
                    tuya.valueConverterBasic.lookup({
                        OFF: tuya.enum(0),
                        ON: tuya.enum(1),
                    }),
                ],
                [110, "update_frequency", tuya.valueConverter.raw],
                [
                    111,
                    "keysound",
                    tuya.valueConverterBasic.lookup({
                        OFF: tuya.enum(0),
                        ON: tuya.enum(1),
                    }),
                ],
                [
                    112,
                    "battery_low",
                    tuya.valueConverterBasic.lookup({
                        ON: tuya.enum(0),
                        OFF: tuya.enum(1),
                    }),
                ],
                [113, "duration", tuya.valueConverter.raw],
                [
                    114,
                    "handlesound",
                    tuya.valueConverterBasic.lookup({
                        OFF: tuya.enum(0),
                        ON: tuya.enum(1),
                    }),
                ],
                [
                    120,
                    "calibrate",
                    tuya.valueConverterBasic.lookup({
                        clear: tuya.enum(0),
                        execute: tuya.enum(1),
                    }),
                ],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_ysm4dsb1"]),
        model: "RSH-HS06",
        vendor: "Tuya",
        description: "Temperature and humidity sensor",
        extend: [
            tuya.modernExtend.tuyaBase({
                dp: true,
                queryOnDeviceAnnounce: true,
                queryOnConfigure: true,
                respondToMcuVersionResponse: true,
            }),
        ],
        exposes: [
            e.temperature(),
            e.humidity(),
            tuya.exposes.temperatureUnit(),
            tuya.exposes.temperatureCalibration(),
            tuya.exposes.humidityCalibration(),
            e.battery(),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "temperature", tuya.valueConverter.divideBy10],
                [2, "humidity", tuya.valueConverter.raw],
                [4, "battery", tuya.valueConverter.raw],
                [9, "temperature_unit", tuya.valueConverter.temperatureUnit],
                [23, "temperature_calibration", tuya.valueConverter.divideBy10],
                [24, "humidity_calibration", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_n8dljorx"]),
        model: "ZG-102Z",
        vendor: "Tuya",
        description: "Door sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [e.contact(), e.battery()],
        meta: {
            tuyaDatapoints: [
                [1, "contact", tuya.valueConverter.inverse],
                [2, "battery", tuya.valueConverter.raw],
            ],
        },
    },
    {
        zigbeeModel: ["ZG-102ZL"],
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_pay2byax", "_TZE200_ijey4q29", "_TZE200_ykglasuj", "_TZE200_kf2hbko4"]),
        model: "ZG-102ZL",
        vendor: "Tuya",
        description: "Luminance door sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.contact(),
            e.illuminance().withUnit("lx"),
            e.battery(),
            e
                .numeric("illuminance_interval", ea.STATE_SET)
                .withValueMin(1)
                .withValueMax(720)
                .withValueStep(1)
                .withUnit("minutes")
                .withDescription("Brightness acquisition interval (refresh and update only while active)"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "contact", tuya.valueConverter.inverse],
                [101, "illuminance", tuya.valueConverter.raw],
                [2, "battery", tuya.valueConverter.raw],
                [102, "illuminance_interval", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: [
            ...tuya.fingerprint("TS0601", ["_TZE200_f1pvdgoh", "_TZE200_me6wtiqs", "_TZE200_ghynnvos"]),
            ...tuya.fingerprint("\u0000B", ["_TZE200_f1pvdgoh"]),
        ],
        model: "TS0601_pir",
        vendor: "Tuya",
        description: "Haozee PIR sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true, respondToMcuVersionResponse: true})],
        exposes: (device, options) => {
            const exposes: Expose[] = [e.occupancy(), e.illuminance()];
            // https://github.com/Koenkk/zigbee2mqtt.io/pull/4018
            if (device.manufacturerName !== "_TZE200_ghynnvos") {
                exposes.push(e.battery());
            }
            return exposes;
        },
        whiteLabel: [
            tuya.whitelabel("Immax", "07527L", "NEO Smart PIR sensor 2v1 Zigbee 3.0", ["_TZE200_me6wtiqs"]),
            tuya.whitelabel("Conecto", "COZIGPMS", "PIR Motion Sensor", ["_TZE200_ghynnvos"]),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "occupancy", tuya.valueConverter.trueFalse0],
                [4, "battery", tuya.valueConverter.raw],
                [101, "illuminance", tuya.valueConverter.raw],
            ],
        },
    },
    {
        zigbeeModel: ["ZG-225Z"],
        fingerprint: [...tuya.fingerprint("TS0601", ["_TZE200_8isdky6j"]), ...tuya.fingerprint("TS0225", ["_TZE200_p6fuhvez", "_TZE200_aj0oxo1i"])],
        model: "ZG-225Z",
        vendor: "Tuya",
        description: "Gas sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.gas(),
            tuya.exposes.gasValue().withUnit("ppm"),
            e.enum("sensitivity", ea.STATE_SET, ["low", "medium", "high"]).withDescription("Gas sensor sensitivity"),
            e.enum("ring", ea.STATE_SET, ["ring1", "ring2"]).withDescription("Ring"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "gas", tuya.valueConverter.trueFalse0],
                [2, "gas_value", tuya.valueConverter.raw],
                [
                    101,
                    "sensitivity",
                    tuya.valueConverterBasic.lookup({
                        low: tuya.enum(0),
                        medium: tuya.enum(1),
                        high: tuya.enum(2),
                    }),
                ],
                [
                    6,
                    "ring",
                    tuya.valueConverterBasic.lookup({
                        ring1: tuya.enum(0),
                        ring2: tuya.enum(1),
                    }),
                ],
            ],
        },
    },
    {
        zigbeeModel: ["ZG-204ZL"],
        fingerprint: tuya.fingerprint("TS0601", [
            "_TZE200_3towulqd",
            "_TZE200_1ibpyhdc",
            "_TZE200_bh3n6gk8",
            "_TZE200_ttcovulf",
            "_TZE200_gjldowol",
            "_TZE200_s6hzw8g2",
            "_TZE200_jxyhl4eq",
            "_TZE200_qxyh4r7g",
            "_TZE200_na5qlzow",
        ]),
        model: "ZG-204ZL",
        vendor: "Tuya",
        description: "Luminance motion sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.occupancy(),
            e.illuminance().withUnit("lx"),
            e.battery(),
            e
                .enum("sensitivity", ea.STATE_SET, ["low", "medium", "high"])
                .withDescription("PIR sensor sensitivity (refresh and update only while active)"),
            e
                .enum("keep_time", ea.STATE_SET, ["10", "30", "60", "120"])
                .withDescription("PIR keep time in seconds (refresh and update only while active)"),
            e
                .numeric("illuminance_interval", ea.STATE_SET)
                .withValueMin(1)
                .withValueMax(720)
                .withValueStep(1)
                .withUnit("minutes")
                .withDescription("Brightness acquisition interval (refresh and update only while active)"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "occupancy", tuya.valueConverter.trueFalse0],
                [4, "battery", tuya.valueConverter.raw],
                [
                    9,
                    "sensitivity",
                    tuya.valueConverterBasic.lookup({
                        low: tuya.enum(0),
                        medium: tuya.enum(1),
                        high: tuya.enum(2),
                    }),
                ],
                [
                    10,
                    "keep_time",
                    tuya.valueConverterBasic.lookup({
                        "10": tuya.enum(0),
                        "30": tuya.enum(1),
                        "60": tuya.enum(2),
                        "120": tuya.enum(3),
                    }),
                ],
                [12, "illuminance", tuya.valueConverter.raw],
                [101, "illuminance", tuya.valueConverter.raw], // For _TZE200_s6hzw8g2
                [102, "illuminance_interval", tuya.valueConverter.raw],
            ],
        },
        whiteLabel: [tuya.whitelabel("Nedis", "ZBSM20WT", "Nedis motion sensor", ["_TZE200_s6hzw8g2"])],
    },
    {
        fingerprint: [
            ...tuya.fingerprint("TS0225", ["_TZE200_2aaelwxk", "_TZE200_crq3r3la"]),
            ...tuya.fingerprint("CK-BL702-MWS-01(7016)", ["HOBEIAN", "_TZE200_crq3r3la"]),
        ],
        model: "ZG-205Z/A",
        vendor: "Tuya",
        description: "5.8Ghz/24Ghz Human presence sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.presence(),
            e.enum("motion_state", ea.STATE, ["none", "small", "medium", "large", "far", "near"]).withDescription("State of the motion"),
            e.numeric("target_distance", ea.STATE).withDescription("Distance to target").withUnit("m"),
            e.illuminance().withUnit("lx"),
            e
                .numeric("large_motion_detection_sensitivity", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(10)
                .withValueStep(1)
                .withUnit("x")
                .withDescription("Motion detection sensitivity"),
            e
                .numeric("large_motion_detection_distance", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(10)
                .withValueStep(0.01)
                .withUnit("m")
                .withDescription("Motion detection distance"),

            e
                .numeric("fading_time", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(28800)
                .withValueStep(1)
                .withUnit("s")
                .withDescription("For how much time presence should stay true after detecting it"),
            e
                .numeric("medium_motion_detection_distance", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(6)
                .withValueStep(0.01)
                .withUnit("m")
                .withDescription("Medium motion detection distance"),
            e
                .numeric("medium_motion_detection_sensitivity", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(10)
                .withValueStep(1)
                .withUnit("x")
                .withDescription("Medium motion detection sensitivity"),
            e.binary("indicator", ea.STATE_SET, "ON", "OFF").withDescription("LED Indicator"),
            e
                .numeric("small_detection_distance", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(6)
                .withValueStep(0.01)
                .withUnit("m")
                .withDescription("Small detection distance"),
            e
                .numeric("small_detection_sensitivity", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(10)
                .withValueStep(1)
                .withUnit("x")
                .withDescription("Small detection sensitivity"),
            e
                .numeric("minimum_range", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(6)
                .withValueStep(0.01)
                .withUnit("m")
                .withDescription("Minimum range"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "presence", tuya.valueConverter.trueFalse1],
                [2, "large_motion_detection_sensitivity", tuya.valueConverter.raw],
                [4, "large_motion_detection_distance", tuya.valueConverter.divideBy100],
                [
                    101,
                    "motion_state",
                    tuya.valueConverterBasic.lookup({
                        none: tuya.enum(0),
                        large: tuya.enum(1),
                        medium: tuya.enum(2),
                        small: tuya.enum(3),
                        far: tuya.enum(4),
                        near: tuya.enum(5),
                    }),
                ],
                [102, "fading_time", tuya.valueConverter.raw],
                [104, "medium_motion_detection_distance", tuya.valueConverter.divideBy100],
                [105, "medium_motion_detection_sensitivity", tuya.valueConverter.raw],
                [106, "illuminance", tuya.valueConverter.raw],
                [107, "indicator", tuya.valueConverter.onOff],
                [108, "small_detection_distance", tuya.valueConverter.divideBy100],
                [109, "small_detection_sensitivity", tuya.valueConverter.raw],
                [122, "target_distance", tuya.valueConverter.divideBy100],
                [123, "minimum_range", tuya.valueConverter.divideBy100],
                // Not exposed DPs/untested
                // [103, 'motion_false_detection', tuya.valueConverter.raw],
                // [113, 'breathe_false_detection', tuya.valueConverter.raw],
                // [3, 'mov_minimum_distance', tuya.valueConverter.raw],
                // [110, 'micro_minimum_distance', tuya.valueConverter.raw],
                // [111, 'motionless_minimum_distance', tuya.valueConverter.raw],
                // [112, 'reset_setting', tuya.valueConverter.raw],
                // [114, 'time', tuya.valueConverter.raw],
                // [115, 'alarm_time', tuya.valueConverter.raw],
                // [116, 'alarm_volume', tuya.valueConverterBasic.lookup(
                //  {'low': tuya.enum(0), 'medium': tuya.enum(1), 'high': tuya.enum(2), 'mute': tuya.enum(3)})],
                // [117, 'working_mode', tuya.valueConverterBasic.lookup(
                // {'arm': tuya.enum(0), 'off': tuya.enum(1), 'alarm': tuya.enum(2),  'doorbell': tuya.enum(3)})],
                // [118, 'auto1', tuya.valueConverter.raw],
                // [119, 'auto2', tuya.valueConverter.raw],
                // [120, 'auto3', tuya.valueConverter.raw],
            ],
        },
    },
    {
        zigbeeModel: ["ZG-204ZM"],
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_2aaelwxk", "_TZE200_kb5noeto", "_TZE200_tyffvoij", "_TZE200_yflzeeqj"]),
        model: "ZG-204ZM",
        vendor: "Tuya",
        description: "PIR 24Ghz human presence sensor",
        extend: [
            tuya.modernExtend.tuyaBase({dp: true}),
            // Besides dp, also uses standard illuminance cluster
            // https://github.com/Koenkk/zigbee-herdsman-converters/issues/10897
            m.illuminance({reporting: false}),
        ],
        exposes: [
            e.presence(),
            e.enum("motion_state", ea.STATE, ["none", "large", "small", "static"]).withDescription("Motion state"),
            e.battery(),
            e
                .numeric("fading_time", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(28800)
                .withValueStep(1)
                .withUnit("s")
                .withDescription("Presence keep time"),
            e
                .numeric("static_detection_distance", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(6)
                .withValueStep(0.01)
                .withUnit("m")
                .withDescription("Static detection distance"),
            e
                .numeric("static_detection_sensitivity", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(10)
                .withValueStep(1)
                .withUnit("x")
                .withDescription("Static detection sensitivity"),
            e.binary("indicator", ea.STATE_SET, "ON", "OFF").withDescription("LED indicator mode"),
            e
                .enum("motion_detection_mode", ea.STATE_SET, ["only_pir", "pir_and_radar", "only_radar"])
                .withDescription("Motion detection mode (Firmware version>=0122052017)"),
            e
                .numeric("motion_detection_sensitivity", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(10)
                .withValueStep(1)
                .withUnit("x")
                .withDescription("Motion detection sensitivity (Firmware version>=0122052017)"),
        ],

        meta: {
            tuyaDatapoints: [
                [1, "presence", tuya.valueConverter.trueFalse1],
                [2, "static_detection_sensitivity", tuya.valueConverter.raw],
                [4, "static_detection_distance", tuya.valueConverter.divideBy100],
                [
                    101,
                    "motion_state",
                    tuya.valueConverterBasic.lookup({
                        none: tuya.enum(0),
                        large: tuya.enum(1),
                        small: tuya.enum(2),
                        static: tuya.enum(3),
                    }),
                ],
                [102, "fading_time", tuya.valueConverter.raw],
                [106, "illuminance", tuya.valueConverter.raw],
                [107, "indicator", tuya.valueConverter.onOff],
                [121, "battery", tuya.valueConverter.raw],
                [
                    122,
                    "motion_detection_mode",
                    tuya.valueConverterBasic.lookup({
                        only_pir: tuya.enum(0),
                        pir_and_radar: tuya.enum(1),
                        only_radar: tuya.enum(2),
                    }),
                ],
                [123, "motion_detection_sensitivity", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS110E", ["_TZ3210_zxbtub8r"]),
        model: "TS110E_1gang_1",
        vendor: "Tuya",
        description: "1 channel dimmer",
        extend: [m.light({powerOnBehavior: false, configureReporting: true, effect: false}), tuya.modernExtend.tuyaMagicPacket()],
        fromZigbee: [tuya.fz.power_on_behavior_1, fz.TS110E_switch_type, fz.TS110E, fz.on_off],
        toZigbee: [tz.TS110E_light_onoff_brightness, tuya.tz.power_on_behavior_1, tz.TS110E_options],
        exposes: [e.power_on_behavior(), tuya.exposes.switchType(), e.min_brightness(), e.max_brightness()],
        configure: tuya.configureMagicPacket,
    },
    {
        fingerprint: tuya.fingerprint("TS110E", ["_TZ3210_ngqk6jia", "_TZ3210_weaqkhab", "_TZ3210_k1msuvg6"]),
        model: "TS110E_1gang_2",
        vendor: "Tuya",
        description: "1 channel dimmer",
        whiteLabel: [
            tuya.whitelabel("Lonsonho", "QS-Zigbee-D02-TRIAC-L_1", "1 channel dimmer", ["_TZ3210_weaqkhab"]),
            tuya.whitelabel("Lonsonho", "QS-Zigbee-D02-TRIAC-LN_1", "1 channel dimmer", ["_TZ3210_ngqk6jia"]),
        ],
        ota: true,
        fromZigbee: [fz.TS110E, fz.TS110E_light_type, tuya.fz.power_on_behavior_1, fz.on_off],
        toZigbee: [tz.TS110E_onoff_brightness, tz.TS110E_options, tuya.tz.power_on_behavior_1, tz.light_brightness_move, tzLocal.ts110eCountdown],
        exposes: (device, options) => {
            // https://github.com/Koenkk/zigbee2mqtt/issues/26791#issuecomment-2765734859
            const countdownValueStep = device.manufacturerName === "_TZ3210_ngqk6jia" ? 30 : 1;
            return [
                e.light_brightness().withMinBrightness().withMaxBrightness(),
                tuya.exposes.lightType().withAccess(ea.ALL),
                e.power_on_behavior().withAccess(ea.ALL),
                tuya.exposes.switchType(),
                tuya.exposes.countdown().withValueStep(countdownValueStep),
            ];
        },
        extend: [
            m.deviceAddCustomCluster("genOnOff", {
                ID: Zcl.Clusters.genOnOff.ID,
                attributes: {},
                commands: {
                    tuyaCountdown: {
                        ID: 0xf0,
                        parameters: [{name: "data", type: 1008 /* BUFFER */}],
                    },
                },
                commandsResponse: {},
            }),
        ],
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            const endpoint = device.getEndpoint(1);
            await reporting.bind(endpoint, coordinatorEndpoint, ["genOnOff", "genLevelCtrl"]);
            await reporting.onOff(endpoint);
        },
    },
    {
        fingerprint: tuya.fingerprint("TS110E", ["_TZ3210_ysfo0wla"]),
        model: "EKAC-T3095Z",
        vendor: "Ekaza",
        description: "1 channel dimmer",
        fromZigbee: [fz.TS110E, tuya.fz.power_on_behavior_1, fz.on_off],
        toZigbee: [tz.TS110E_onoff_brightness, tz.TS110E_options, tuya.tz.power_on_behavior_1, tz.light_brightness_move],
        exposes: [e.light_brightness().withMinBrightness().withMaxBrightness(), e.power_on_behavior().withAccess(ea.ALL)],
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            const endpoint = device.getEndpoint(1);
            await reporting.bind(endpoint, coordinatorEndpoint, ["genOnOff", "genLevelCtrl"]);
            await reporting.onOff(endpoint);
        },
    },
    {
        fingerprint: tuya.fingerprint("TS110E", ["_TZ3210_wdexaypg"]),
        model: "TS110E_2gang_1",
        vendor: "Tuya",
        description: "2 channel dimmer",
        extend: [
            m.deviceEndpoints({endpoints: {l1: 1, l2: 2}}),
            m.light({
                powerOnBehavior: false,
                endpointNames: ["l1", "l2"],
                configureReporting: true,
            }),
        ],
        fromZigbee: [tuya.fz.power_on_behavior_1, fz.TS110E_switch_type, fz.TS110E],
        toZigbee: [tz.TS110E_light_onoff_brightness, tuya.tz.power_on_behavior_1, tz.TS110E_options],
        configure: tuya.configureMagicPacket,
        exposes: [
            e.min_brightness().withEndpoint("l1"),
            e.max_brightness().withEndpoint("l1"),
            e.min_brightness().withEndpoint("l2"),
            e.max_brightness().withEndpoint("l2"),
            e.power_on_behavior(),
            tuya.exposes.switchType().withEndpoint("l1"),
            tuya.exposes.switchType().withEndpoint("l2"),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS110E", ["_TZ3210_pagajpog", "_TZ3210_4ubylghk", "_TZ3210_vfwhhldz", "_TZ3210_3mpwqzuu", "_TZ3210_mt5xjoy6"]),
        model: "TS110E_2gang_2",
        vendor: "Tuya",
        description: "2 channel dimmer",
        whiteLabel: [tuya.whitelabel("Nedis", "ZBWD20RD", "SmartLife Triac Dimmer", ["_TZ3210_mt5xjoy6"])],
        fromZigbee: [fz.TS110E, fz.TS110E_switch_type, tuya.fz.power_on_behavior_1, fz.on_off],
        toZigbee: [tz.TS110E_onoff_brightness, tz.TS110E_options, tuya.tz.power_on_behavior_1, tz.light_brightness_move],
        meta: {multiEndpoint: true},
        exposes: [
            e.power_on_behavior(),
            e.light_brightness().withMinBrightness().withMaxBrightness().withEndpoint("l1"),
            e.light_brightness().withMinBrightness().withMaxBrightness().withEndpoint("l2"),
            tuya.exposes.switchType().withEndpoint("l1"),
            tuya.exposes.switchType().withEndpoint("l2"),
        ],
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            const endpoint = device.getEndpoint(1);
            await reporting.bind(endpoint, coordinatorEndpoint, ["genOnOff", "genLevelCtrl"]);
            await reporting.onOff(endpoint);
        },
        endpoint: (device) => {
            return {l1: 1, l2: 2};
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_nslr42tt"]),
        model: "TS0601_3_phase_clamp_meter",
        vendor: "Tuya",
        description: "3-phase clamp power meter",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        whiteLabel: [
            {vendor: "MatSee Plus", model: "PC321-Z-TY"},
            {vendor: "OWON", model: "PC321-Z-TY"},
        ],
        exposes: (device) => {
            const baseExposes = [
                e.ac_frequency(),
                e.temperature(),
                e.current(),
                e.power(),
                e.energy(),
                tuya.exposes.energyWithPhase("a"),
                tuya.exposes.energyWithPhase("b"),
                tuya.exposes.energyWithPhase("c"),
                tuya.exposes.voltageWithPhase("a"),
                tuya.exposes.voltageWithPhase("b"),
                tuya.exposes.voltageWithPhase("c"),
                tuya.exposes.powerWithPhase("a"),
                tuya.exposes.powerWithPhase("b"),
                tuya.exposes.powerWithPhase("c"),
                tuya.exposes.currentWithPhase("a"),
                tuya.exposes.currentWithPhase("b"),
                tuya.exposes.currentWithPhase("c"),
                tuya.exposes.powerFactorWithPhase("a"),
                tuya.exposes.powerFactorWithPhase("b"),
                tuya.exposes.powerFactorWithPhase("c"),
            ];

            if (device.applicationVersion >= 132) {
                baseExposes.push(e.numeric("ac_frequency_high_precision", ea.STATE).withUnit("Hz").withValueMin(0).withValueMax(100));
            }

            return baseExposes;
        },
        meta: {
            multiEndpointSkip: ["power_factor", "power_factor_phase_b", "power_factor_phase_c", "energy"],
            tuyaDatapoints: [
                [132, "ac_frequency", tuya.valueConverter.raw],
                [133, "temperature", tuya.valueConverter.divideBy10],
                [1, "energy", tuya.valueConverter.divideBy100],
                [101, "energy_a", tuya.valueConverter.divideBy1000],
                [111, "energy_b", tuya.valueConverter.divideBy1000],
                [121, "energy_c", tuya.valueConverter.divideBy1000],
                [131, "current", tuya.valueConverter.divideBy1000],
                [9, "power", tuya.valueConverter.power],
                [102, "power_factor_a", tuya.valueConverter.raw],
                [112, "power_factor_b", tuya.valueConverter.raw],
                [122, "power_factor_c", tuya.valueConverter.raw],
                [6, null, tuya.valueConverter.phaseVariant2WithPhase("a")],
                [7, null, tuya.valueConverter.phaseVariant2WithPhase("b")],
                [8, null, tuya.valueConverter.phaseVariant2WithPhase("c")],
                [134, "device_status", tuya.valueConverter.raw],
                [135, "ac_frequency_high_precision", tuya.valueConverter.divideBy100],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_x8fp01wi", "_TZE204_x8fp01wi"]),
        model: "TS0601_3_phase_clamp_meter_relay",
        vendor: "Tuya",
        description: "3-phase clamp power meter with relay",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        whiteLabel: [{vendor: "Wenzhou Taiye Electric", model: "TAC7361C BI"}],
        exposes: [
            e.switch().setAccess("state", ea.STATE_SET),
            e.power(),
            e.energy(),
            e.produced_energy(),
            tuya.exposes.voltageWithPhase("a"),
            tuya.exposes.voltageWithPhase("b"),
            tuya.exposes.voltageWithPhase("c"),
            tuya.exposes.powerWithPhase("a"),
            tuya.exposes.powerWithPhase("b"),
            tuya.exposes.powerWithPhase("c"),
            tuya.exposes.currentWithPhase("a"),
            tuya.exposes.currentWithPhase("b"),
            tuya.exposes.currentWithPhase("c"),
        ],
        meta: {
            tuyaDatapoints: [
                [16, "state", tuya.valueConverter.onOff],
                [1, "energy", tuya.valueConverter.divideBy100],
                [2, "produced_energy", tuya.valueConverter.divideBy100],
                [9, "power", tuya.valueConverter.power],
                [6, null, tuya.valueConverter.phaseVariant2WithPhase("a")],
                [7, null, tuya.valueConverter.phaseVariant2WithPhase("b")],
                [8, null, tuya.valueConverter.phaseVariant2WithPhase("c")],
            ],
        },
    },
    {
        zigbeeModel: ["TS0049"],
        model: "TS0049",
        vendor: "Tuya",
        description: "Water valve",
        extend: [tuya.modernExtend.tuyaBase({dp: true, forceTimeUpdates: true})],
        exposes: [
            tuya.exposes.errorStatus(),
            tuya.exposes.switch(),
            tuya.exposes.batteryState(),
            tuya.exposes.countdown().withValueMin(0).withValueMax(255).withUnit("minutes").withDescription("Max on time in minutes"),
        ],
        meta: {
            tuyaSendCommand: "sendData",
            tuyaDatapoints: [
                [26, "error_status", tuya.valueConverter.raw],
                [101, "state", tuya.valueConverter.onOff],
                [111, "countdown", tuya.valueConverter.raw],
                [115, "battery_state", tuya.valueConverter.batteryState],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0049", ["_TZ3290_ixd9mvv4"]),
        model: "LYAI-14",
        vendor: "Tuya",
        description: "Solar intelligent timed water valve controller",
        extend: [m.battery(), m.onOff({powerOnBehavior: false}), tuya.modernExtend.tuyaBase({dp: true})],
        // Countdown is not working properly yet - device ignores it and uses the default (10 minutes)
        // Countdown can be set using the Tuya app/hub and it will persist
        fromZigbee: [fz.battery, fz.on_off /*tuya.fz.on_off_countdown,*/],
        toZigbee: [tz.on_off /*tuya.tz.on_off_countdown,*/],
        exposes: [
            tuya.exposes.countdown().withAccess(ea.ALL),
            e.numeric("error_status", ea.STATE).withDescription("Device error code"),
            e.enum("rain_sensor_status", ea.STATE, ["rain", "no_rain"]).withDescription("Rain sensor state"),
            e.binary("rain_sensor_switch", ea.STATE_SET, "ON", "OFF").withDescription("Enable/disable rain sensor"),
            e.enum("battery_state", ea.STATE, ["no_charge", "charging", "charged"]).withDescription("Battery charging state"),
        ],
        meta: {
            tuyaSendCommand: "sendData",
            tuyaDatapoints: [
                [1, "state", tuya.valueConverter.onOff],
                [4, "error_status", tuya.valueConverter.raw],
                [11, "countdown", tuya.valueConverter.countdown],
                [101, "rain_sensor_status", tuya.valueConverterBasic.lookup({rain: tuya.enum(0), no_rain: tuya.enum(1)})],
                [102, "rain_sensor_switch", tuya.valueConverter.onOff],
                [103, "battery_state", tuya.valueConverterBasic.lookup({no_charge: tuya.enum(0), charging: tuya.enum(1), charged: tuya.enum(2)})],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE284_eaet5qt5", "_TZE284_fhvpaltk"]),
        model: "TS0601_water_switch",
        vendor: "Tuya",
        description: "Dual water valve",
        fromZigbee: [fz.battery],
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.enum("valve_status", ea.STATE, ["manual", "auto", "idle"]).withDescription("Valve 1 status (manual, auto, idle)").withEndpoint("l1"),
            e.enum("valve_status", ea.STATE, ["manual", "auto", "idle"]).withDescription("Valve 2 status (manual, auto, idle)").withEndpoint("l2"),
            e.switch().withEndpoint("l1").withDescription("Valve 1 on/off").withLabel("Valve 1"),
            e.switch().withEndpoint("l2").withDescription("Valve 2 on/off").withLabel("Valve 2"),
            e
                .numeric("countdown", ea.STATE_SET)
                .withUnit("min")
                .withDescription("Valve 1 countdown in minutes")
                .withValueMin(0)
                .withValueMax(1440)
                .withEndpoint("l1"),
            e
                .numeric("countdown", ea.STATE_SET)
                .withUnit("min")
                .withDescription("Valve 2 countdown in minutes")
                .withValueMin(0)
                .withValueMax(1440)
                .withEndpoint("l2"),
            e.numeric("valve_duration", ea.STATE).withUnit("s").withDescription("Valve 1 irrigation last duration in seconds").withEndpoint("l1"),
            e.numeric("valve_duration", ea.STATE).withUnit("s").withDescription("Valve 2 irrigation last duration in seconds").withEndpoint("l2"),
            e.battery(),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "state_l1", tuya.valueConverter.onOff], // Valve 1 on/off
                [2, "state_l2", tuya.valueConverter.onOff], // Valve 2 on/off
                [13, "countdown_l1", tuya.valueConverter.raw], // Valve 1 countdown
                [14, "countdown_l2", tuya.valueConverter.raw], // Valve 2 countdown
                [25, "valve_duration_l1", tuya.valueConverter.raw], // Valve 1 duration
                [26, "valve_duration_l2", tuya.valueConverter.raw], // Valve 2 duration
                [104, "valve_status_l1", tuya.valueConverterBasic.lookup({manual: 0, auto: 1, idle: 2})], // Valve 1 status
                [105, "valve_status_l2", tuya.valueConverterBasic.lookup({manual: 0, auto: 1, idle: 2})], // Valve 2 status
                [59, "battery", tuya.valueConverter.raw],
            ],
            multiEndpoint: true, // Enable multi-endpoint support
        },
        endpoint: (device) => {
            return {
                l1: 1, // Valve 1 uses endpoint 1
                l2: 1, // Valve 2 also uses endpoint 1
            };
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_r32ctezx", "_TZE204_r32ctezx"]),
        model: "TS0601_fan_switch",
        vendor: "Tuya",
        description: "Fan switch",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            tuya.exposes.switch(),
            e.power_on_behavior(["off", "on"]).withAccess(ea.STATE_SET),
            tuya.exposes.countdown().withValueMin(0).withValueMax(43200).withUnit("s").withDescription("Max ON time in seconds"),
            e.numeric("fan_speed", ea.STATE_SET).withValueMin(1).withValueMax(5).withValueStep(1).withDescription("Speed off the fan"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "state", tuya.valueConverter.onOff],
                [2, "countdown", tuya.valueConverter.countdown],
                [
                    3,
                    "fan_speed",
                    tuya.valueConverterBasic.lookup({
                        "1": tuya.enum(0),
                        "2": tuya.enum(1),
                        "3": tuya.enum(2),
                        "4": tuya.enum(3),
                        "5": tuya.enum(4),
                    }),
                ],
                [
                    11,
                    "power_on_behavior",
                    tuya.valueConverterBasic.lookup({
                        off: tuya.enum(0),
                        on: tuya.enum(1),
                    }),
                ],
            ],
        },
        whiteLabel: [{vendor: "Lerlink", model: "T2-Z67/T2-W67"}],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_hmqzfqml", "_TZE200_qanl25yu"]),
        model: "TS0601_fan_and_light_switch",
        vendor: "Tuya",
        description: "Fan & light switch",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.binary("status_indication", ea.STATE_SET, "ON", "OFF").withDescription("Light switch"),
            tuya.exposes.switch(),
            e.power_on_behavior(["OFF", "ON"]).withAccess(ea.STATE_SET),
            e.enum("fan_speed", ea.STATE_SET, ["minimum", "medium", "maximum"]).withDescription("Speed of the fan"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "state", tuya.valueConverter.onOff],
                [
                    101,
                    "fan_speed",
                    tuya.valueConverterBasic.lookup({
                        minimum: tuya.enum(0),
                        medium: tuya.enum(1),
                        maximum: tuya.enum(2),
                    }),
                ],
                [
                    11,
                    "power_on_behavior",
                    tuya.valueConverterBasic.lookup({
                        OFF: tuya.enum(0),
                        ON: tuya.enum(1),
                    }),
                ],
                [5, "status_indication", tuya.valueConverter.onOff],
            ],
        },
        whiteLabel: [{vendor: "Liwokit", model: "Fan+Light-01"}],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_lawxy9e2", "_TZE204_lawxy9e2"]),
        model: "TS0601_fan_5_levels_and_light_switch",
        vendor: "Tuya",
        description: "Fan with 5 levels & light switch",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.binary("status_indication", ea.STATE_SET, "ON", "OFF").withDescription("Light switch"),
            tuya.exposes.switch(),
            e.power_on_behavior(["OFF", "ON"]).withAccess(ea.STATE_SET).withDescription("Fan On Off"),
            e.numeric("fan_speed", ea.STATE_SET).withValueMin(1).withValueMax(5).withValueStep(1).withDescription("Speed off the fan"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "state", tuya.valueConverter.onOff],
                [
                    3,
                    "fan_speed",
                    tuya.valueConverterBasic.lookup(
                        {
                            "1": tuya.enum(0),
                            "2": tuya.enum(1),
                            "3": tuya.enum(2),
                            "4": tuya.enum(3),
                            "5": tuya.enum(4),
                        },
                        "5",
                    ),
                ],
                [
                    11,
                    "power_on_behavior",
                    tuya.valueConverterBasic.lookup({
                        OFF: tuya.enum(0),
                        ON: tuya.enum(1),
                    }),
                ],
                [5, "status_indication", tuya.valueConverter.onOff],
            ],
        },
        whiteLabel: [{vendor: "Liwokit", model: "Fan+Light-01"}],
    },
    {
        zigbeeModel: ["TS0224"],
        model: "TS0224",
        vendor: "Tuya",
        description: "Smart light & sound siren",
        fromZigbee: [],
        toZigbee: [tz.warning, tzLocal.TS0224],
        exposes: [
            e.warning(),
            e.binary("light", ea.STATE_SET, "ON", "OFF").withDescription("Turn the light of the alarm ON/OFF"),
            e
                .numeric("duration", ea.STATE_SET)
                .withValueMin(60)
                .withValueMax(3600)
                .withValueStep(1)
                .withUnit("s")
                .withDescription("Duration of the alarm"),
            e.enum("volume", ea.STATE_SET, ["mute", "low", "medium", "high"]).withDescription("Volume of the alarm"),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS0041", ["_TZ3000_fa9mlvja"]),
        model: "IH-K663",
        vendor: "Tuya",
        description: "Smart button",
        exposes: [e.battery(), e.battery_voltage(), e.action(["single", "double"])],
        fromZigbee: [tuya.fz.on_off_action, fz.battery],
        toZigbee: [],
        configure: tuya.configureMagicPacket,
    },
    {
        fingerprint: tuya.fingerprint("TS011F", [
            "_TZ3000_cayepv1a",
            "_TZ3000_lepzuhto",
            "_TZ3000_qystbcjg",
            "_TZ3000_zrm3oxsh",
            "_TZ3000_303avxxt",
            "_TZ3000_ibefeicf",
            "_TZ3000_zjchz7pd",
            "_TZ3000_zv6x8bt2",
        ]),
        model: "TS011F_with_threshold",
        description: "Din rail switch with power monitoring and threshold settings",
        vendor: "Tuya",
        ota: true,
        extend: [
            tuya.modernExtend.tuyaOnOff({
                electricalMeasurements: true,
                electricalMeasurementsFzConverter: fzLocal.TS011F_electrical_measurement,
                powerOutageMemory: true,
                indicatorMode: true,
                onOffCountdown: true,
            }),
        ],
        fromZigbee: [fz.temperature, fzLocal.TS011F_threshold],
        toZigbee: [tzLocal.TS011F_threshold],
        exposes: (device, options) => {
            const exposes: Expose[] = [];
            if (!["_TZ3000_303avxxt", "_TZ3000_ibefeicf", "_TZ3000_zjchz7pd"].includes(device.manufacturerName)) {
                exposes.push(
                    e.temperature(),
                    e
                        .numeric("temperature_threshold", ea.STATE_SET)
                        .withValueMin(40)
                        .withValueMax(100)
                        .withValueStep(1)
                        .withUnit("°C")
                        .withDescription("High temperature threshold"),
                    e.binary("temperature_breaker", ea.STATE_SET, "ON", "OFF").withDescription("High temperature breaker"),
                );
            }
            exposes.push(
                e
                    .numeric("power_threshold", ea.STATE_SET)
                    .withValueMin(1)
                    .withValueMax(26)
                    .withValueStep(1)
                    .withUnit("kW")
                    .withDescription("High power threshold"),
                e.binary("power_breaker", ea.STATE_SET, "ON", "OFF").withDescription("High power breaker"),
                e
                    .numeric("over_current_threshold", ea.STATE_SET)
                    .withValueMin(1)
                    .withValueMax(64)
                    .withValueStep(1)
                    .withUnit("A")
                    .withDescription("Over-current threshold"),
                e.binary("over_current_breaker", ea.STATE_SET, "ON", "OFF").withDescription("Over-current breaker"),
                e
                    .numeric("over_voltage_threshold", ea.STATE_SET)
                    .withValueMin(220)
                    .withValueMax(265)
                    .withValueStep(1)
                    .withUnit("V")
                    .withDescription("Over-voltage threshold"),
                e.binary("over_voltage_breaker", ea.STATE_SET, "ON", "OFF").withDescription("Over-voltage breaker"),
                e
                    .numeric("under_voltage_threshold", ea.STATE_SET)
                    .withValueMin(76)
                    .withValueMax(240)
                    .withValueStep(1)
                    .withUnit("V")
                    .withDescription("Under-voltage threshold"),
                e.binary("under_voltage_breaker", ea.STATE_SET, "ON", "OFF").withDescription("Under-voltage breaker"),
            );
            return exposes;
        },
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            const endpoint = device.getEndpoint(1);
            await endpoint.command("genBasic", "tuyaSetup", {});
            await reporting.bind(endpoint, coordinatorEndpoint, ["msTemperatureMeasurement"]);
            await reporting.bind(endpoint, coordinatorEndpoint, ["genOnOff", "haElectricalMeasurement", "seMetering"]);
            await reporting.rmsVoltage(endpoint, {change: 5});
            await reporting.rmsCurrent(endpoint, {change: 50});
            await reporting.activePower(endpoint, {change: 10});
            await reporting.currentSummDelivered(endpoint);
            endpoint.saveClusterAttributeKeyValue("haElectricalMeasurement", {
                acCurrentDivisor: 1000,
                acCurrentMultiplier: 1,
            });
            endpoint.saveClusterAttributeKeyValue("seMetering", {
                divisor: 100,
                multiplier: 1,
            });
            device.save();
        },
        whiteLabel: [
            tuya.whitelabel("Tongou", "TO-Q-SY2-163JZT", "Smart circuit breaker", ["_TZ3000_cayepv1a"]),
            tuya.whitelabel("EARU", "EAKCB-T-M-Z", "Smart circuit breaker", ["_TZ3000_lepzuhto"]),
            tuya.whitelabel("EARU", "EAYCB-Z-2P", "Smart circuit breaker with leakage protection", ["_TZ3000_zrm3oxsh"]),
            tuya.whitelabel("UNSH", "SMKG-1KNL-EU-Z", "Smart circuit Breaker", ["_TZ3000_qystbcjg"]),
            tuya.whitelabel("Tomzn", "TOB9Z-VAP", "Smart circuit breaker", ["_TZ3000_303avxxt", "_TZ3000_ibefeicf"]),
            tuya.whitelabel("Immax", "07573L", "Smart circuit breaker", ["_TZ3000_zjchz7pd"]),
            tuya.whitelabel("Moes", "A5", "Smart circuit breaker", ["_TZ3000_zv6x8bt2"]),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS000F", ["_TZ3000_hdc8bbha"]),
        model: "QS-Zigbee-SEC01-U",
        vendor: "Tuya",
        description: "Zigbee 3.0 smart light switch module 1 gang",
        extend: [tuya.modernExtend.tuyaOnOff({switchType: true})],
        configure: async (device, coordinatorEndpoint) => {
            await reporting.bind(device.getEndpoint(1), coordinatorEndpoint, ["genOnOff"]);
            device.powerSource = "Mains (single phase)";
            // Device advertises itself as Router but is an EndDevice
            device.type = "EndDevice";
            device.save();
        },
    },
    {
        fingerprint: tuya.fingerprint("TS000F", ["_TZ3218_hdc8bbha"]),
        model: "QS-Zigbee-SEC01-DC",
        vendor: "Tuya",
        description: "Mini 1 Gang Zigbee Switch Module",
        extend: [tuya.modernExtend.tuyaOnOff({switchType: true})],
        configure: async (device, coordinatorEndpoint) => {
            await reporting.bind(device.getEndpoint(1), coordinatorEndpoint, ["genOnOff"]);
            device.powerSource = "Mains (single phase)";
            // Device advertises itself as Router but is an EndDevice
            device.type = "EndDevice";
            device.save();
        },
    },
    {
        fingerprint: tuya.fingerprint("TS000F", ["_TZ3000_m8f3z8ju"]),
        model: "QS-Zigbee-SEC02-U",
        vendor: "Tuya",
        description: "Zigbee 3.0 smart light switch module 2 gang",
        extend: [
            tuya.modernExtend.tuyaOnOff({
                switchType: true,
                endpoints: ["l1", "l2"],
            }),
        ],
        endpoint: (device) => {
            return {l1: 1, l2: 2};
        },
        meta: {multiEndpoint: true},
        configure: async (device, coordinatorEndpoint) => {
            await reporting.bind(device.getEndpoint(1), coordinatorEndpoint, ["genOnOff"]);
            await reporting.bind(device.getEndpoint(2), coordinatorEndpoint, ["genOnOff"]);
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0001", ["_TZ3000_bmqxalil", "_TZ3000_w1tcofu8", "_TZ3000_ma3mhpx2", "_TZ3000_wijoqjk1"]),
        model: "TS0001_switch_1_gang",
        vendor: "Tuya",
        description: "1-Gang switch with backlight",
        extend: [
            tuya.modernExtend.tuyaOnOff({
                powerOnBehavior2: true,
                backlightModeOffOn: true,
            }),
        ],
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            await reporting.bind(device.getEndpoint(1), coordinatorEndpoint, ["genOnOff"]);
        },
        whiteLabel: [
            tuya.whitelabel("Homeetec", "Homeetec_37022454", "1 Gang switch with backlight", ["_TZ3000_bmqxalil"]),
            tuya.whitelabel("RoomsAI", "RoomsAI_37022454", "1 Gang switch with backlight", ["_TZ3000_w1tcofu8"]),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS0001", ["_TZ3000_65ajyxua", "_TZ3000_qq9ahj6z"]),
        model: "FZB-1",
        vendor: "Nova Digital",
        description: "1-Gang switch with power-on behavior and indicator mode",
        extend: [
            tuya.modernExtend.tuyaOnOff({
                powerOnBehavior2: true,
                backlightModeOffOn: true,
                indicatorMode: true,
                inchingSwitch: true,
            }),
        ],
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            await reporting.bind(device.getEndpoint(1), coordinatorEndpoint, ["genOnOff"]);
        },
        whiteLabel: [tuya.whitelabel("iHseno", "_TZ3000_qq9ahj6z", "1-gang touch switch", ["_TZ3000_qq9ahj6z"])],
    },
    {
        fingerprint: tuya.fingerprint("TS0003", ["_TZ3000_pv4puuxi", "_TZ3000_avky2mvc", "_TZ3000_785olaiq", "_TZ3000_qxcnwv26"]),
        model: "TS0003_switch_3_gang",
        vendor: "Tuya",
        description: "3-Gang switch with backlight",
        extend: [
            tuya.modernExtend.tuyaOnOff({
                powerOnBehavior2: true,
                backlightModeOffOn: true,
                endpoints: ["left", "center", "right"],
            }),
        ],
        endpoint: (device) => {
            return {left: 1, center: 2, right: 3};
        },
        meta: {multiEndpoint: true},
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            await reporting.bind(device.getEndpoint(1), coordinatorEndpoint, ["genOnOff"]);
            await reporting.bind(device.getEndpoint(2), coordinatorEndpoint, ["genOnOff"]);
            await reporting.bind(device.getEndpoint(3), coordinatorEndpoint, ["genOnOff"]);
        },
        whiteLabel: [
            tuya.whitelabel("Homeetec", "37022474_1", "3 Gang switch with backlight", ["_TZ3000_pv4puuxi"]),
            tuya.whitelabel("RoomsAI", "37022474_2", "3 Gang switch with backlight", ["_TZ3000_avky2mvc"]),
            tuya.whitelabel("Nova Digital", "WS-US-ZB", "3 Gang switch with backlight", ["_TZ3000_785olaiq"]),
            tuya.whitelabel("Nova Digital", "FZB-3", "3 Gang physical switch with backlight", ["_TZ3000_qxcnwv26"]),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_hewlydpz"]),
        model: "TS0601_switch_4_gang_2",
        vendor: "Tuya",
        description: "4 gang switch with backlight",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            tuya.exposes.switch().withEndpoint("l1"),
            tuya.exposes.switch().withEndpoint("l2"),
            tuya.exposes.switch().withEndpoint("l3"),
            tuya.exposes.switch().withEndpoint("l4"),
            tuya.exposes.backlightModeOffOn(),
        ],
        endpoint: (device) => {
            return {l1: 1, l2: 1, l3: 1, l4: 1};
        },
        meta: {
            multiEndpoint: true,
            tuyaDatapoints: [
                [1, "state_l1", tuya.valueConverter.onOff],
                [2, "state_l2", tuya.valueConverter.onOff],
                [3, "state_l3", tuya.valueConverter.onOff],
                [4, "state_l4", tuya.valueConverter.onOff],
                [7, "backlight_mode", tuya.valueConverter.onOff],
            ],
        },
        whiteLabel: [tuya.whitelabel("Homeetec", "37022714", "4 Gang switch with backlight", ["_TZE200_hewlydpz"])],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_p6vz3wzt", "_TZE284_uqfph8ah"]),
        model: "TS0601_cover_5",
        vendor: "Tuya",
        description: "Curtain/blind switch",
        options: [exposes.options.invert_cover()],
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.cover_position().setAccess("position", ea.STATE_SET),
            e.enum("calibration", ea.STATE_SET, ["START", "END"]).withDescription("Calibration"),
            e.binary("backlight_mode", ea.STATE_SET, "ON", "OFF").withDescription("Backlight"),
            e.enum("motor_steering", ea.STATE_SET, ["FORWARD", "BACKWARD"]).withDescription("Motor Steering"),
            e.binary("child_lock", ea.STATE_SET, "ON", "OFF").withDescription("Child Lock"),
        ],
        meta: {
            tuyaDatapoints: [
                [
                    1,
                    "state",
                    tuya.valueConverterBasic.lookup({
                        OPEN: tuya.enum(0),
                        STOP: tuya.enum(1),
                        CLOSE: tuya.enum(2),
                    }),
                ],
                [2, "position", tuya.valueConverter.coverPosition],
                [
                    3,
                    "calibration",
                    tuya.valueConverterBasic.lookup({
                        START: tuya.enum(0),
                        END: tuya.enum(1),
                    }),
                ],
                [7, "backlight_mode", tuya.valueConverter.onOff],
                [
                    8,
                    "motor_steering",
                    tuya.valueConverterBasic.lookup({
                        FORWARD: tuya.enum(0),
                        BACKWARD: tuya.enum(1),
                    }),
                ],
                [103, "child_lock", tuya.valueConverter.onOff],
            ],
        },
        whiteLabel: [
            tuya.whitelabel("Homeetec", "37022483", "Curtain/blind switch", ["_TZE200_p6vz3wzt"]),
            tuya.whitelabel("BSEED", "_TZE284_uqfph8ah", "Curtain/blind switch", ["_TZE284_uqfph8ah"]),
        ],
    },
    {
        zigbeeModel: ["TS030F"],
        model: "TS030F",
        vendor: "Tuya",
        description: "Smart blind controller",
        fromZigbee: [fz.cover_position_tilt, fz.tuya_cover_options_2],
        toZigbee: [tz.cover_position_tilt, tz.cover_state, tzLocal.TS030F_border, tz.moes_cover_calibration, tz.tuya_cover_reversal],
        configure: async (device, coordinatorEndpoint) => {
            const endpoint = device.getEndpoint(1);
            await reporting.bind(endpoint, coordinatorEndpoint, ["genPowerCfg", "closuresWindowCovering"]);
            await reporting.batteryPercentageRemaining(endpoint);
            await reporting.currentPositionLiftPercentage(endpoint);
        },
        whiteLabel: [tuya.whitelabel("Lidl", "HG09648", "Livarno roller blinds", ["_TZB000_42ha4rsc"])],
        exposes: [
            e.cover_position(),
            e.enum("border", ea.SET, ["up", "down", "up_delete", "down_delete"]),
            e.numeric("calibration_time", ea.ALL).withValueMin(0).withValueMax(100),
            e
                .binary("motor_reversal", ea.ALL, "ON", "OFF")
                .withDescription(
                    "Reverse the motor, resets all endpoints! Also the upper border after hardware initialisation. Be careful!" +
                        "After this you have to turn off and turn on the roller so that it can drive into the uppest position.",
                ),
        ],
    },

    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_jhkttplm"]),
        model: "TS0601_cover_with_1_switch",
        vendor: "Tuya",
        description: "Curtain/blind switch with 1 Gang switch",
        options: [exposes.options.invert_cover()],
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.cover_position().setAccess("position", ea.STATE_SET),
            tuya.exposes.switch().withEndpoint("l1"),
            e.enum("calibration", ea.STATE_SET, ["START", "END"]).withDescription("Calibration"),
            e.binary("backlight_mode", ea.STATE_SET, "ON", "OFF").withDescription("Backlight"),
            e.enum("motor_steering", ea.STATE_SET, ["FORWARD", "BACKWARD"]).withDescription("Motor Steering"),
            e.binary("child_lock", ea.STATE_SET, "ON", "OFF").withDescription("Child Lock"),
        ],
        endpoint: (device) => {
            return {l1: 1};
        },
        meta: {
            multiEndpoint: true,
            tuyaDatapoints: [
                [
                    1,
                    "state",
                    tuya.valueConverterBasic.lookup({
                        OPEN: tuya.enum(0),
                        STOP: tuya.enum(1),
                        CLOSE: tuya.enum(2),
                    }),
                ],
                [2, "position", tuya.valueConverter.coverPosition],
                [
                    3,
                    "calibration",
                    tuya.valueConverterBasic.lookup({
                        START: tuya.enum(0),
                        END: tuya.enum(1),
                    }),
                ],
                [7, "backlight_mode", tuya.valueConverter.onOff],
                [
                    8,
                    "motor_steering",
                    tuya.valueConverterBasic.lookup({
                        FORWARD: tuya.enum(0),
                        BACKWARD: tuya.enum(1),
                    }),
                ],
                [101, "state_l1", tuya.valueConverter.onOff],
                [103, "child_lock", tuya.valueConverter.onOff],
            ],
        },
        whiteLabel: [tuya.whitelabel("Homeetec", "37022493", "Curtain/blind switch with 1 Gang switch", ["_TZE200_jhkttplm"])],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_5nldle7w"]),
        model: "TS0601_cover_with_2_switch",
        vendor: "Tuya",
        description: "Curtain/blind switch with 2 Gang switch",
        options: [exposes.options.invert_cover()],
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.cover_position().setAccess("position", ea.STATE_SET),
            tuya.exposes.switch().withEndpoint("l1"),
            tuya.exposes.switch().withEndpoint("l2"),
            e.enum("calibration", ea.STATE_SET, ["START", "END"]).withDescription("Calibration"),
            e.binary("backlight_mode", ea.STATE_SET, "ON", "OFF").withDescription("Backlight"),
            e.enum("motor_steering", ea.STATE_SET, ["FORWARD", "BACKWARD"]).withDescription("Motor Steering"),
            e.binary("child_lock", ea.STATE_SET, "ON", "OFF").withDescription("Child Lock"),
        ],
        endpoint: (device) => {
            return {l1: 1, l2: 1};
        },
        meta: {
            multiEndpoint: true,
            tuyaDatapoints: [
                [
                    1,
                    "state",
                    tuya.valueConverterBasic.lookup({
                        OPEN: tuya.enum(0),
                        STOP: tuya.enum(1),
                        CLOSE: tuya.enum(2),
                    }),
                ],
                [2, "position", tuya.valueConverter.coverPosition],
                [
                    3,
                    "calibration",
                    tuya.valueConverterBasic.lookup({
                        START: tuya.enum(0),
                        END: tuya.enum(1),
                    }),
                ],
                [7, "backlight_mode", tuya.valueConverter.onOff],
                [
                    8,
                    "motor_steering",
                    tuya.valueConverterBasic.lookup({
                        FORWARD: tuya.enum(0),
                        BACKWARD: tuya.enum(1),
                    }),
                ],
                [101, "state_l2", tuya.valueConverter.onOff],
                [102, "state_l1", tuya.valueConverter.onOff],
                [103, "child_lock", tuya.valueConverter.onOff],
            ],
        },
        whiteLabel: [tuya.whitelabel("Homeetec", "37022173", "Curtain/blind switch with 2 Gang switch", ["_TZE200_5nldle7w"])],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_bcusnqt8"]),
        model: "SPM01",
        vendor: "Tuya",
        description: "Smart energy monitor for 1P+N system",
        ota: true,
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.voltage(),
            e.power(),
            e.current(),
            // Change the description according to the specifications of the device
            e
                .energy()
                .withDescription("Total forward active energy"),
            e.produced_energy().withDescription("Total reverse active energy"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "energy", tuya.valueConverter.divideBy100],
                [2, "produced_energy", tuya.valueConverter.divideBy100],
                [
                    6,
                    null,
                    {
                        from: (v: Buffer) => {
                            return {
                                voltage: v.readUint16BE(0) / 10,
                                current: ((v.readUint8(2) << 16) + (v.readUint8(3) << 8) + v.readUint8(4)) / 1000,
                                power: (v.readUint8(5) << 16) + (v.readUint8(6) << 8) + v.readUint8(7),
                            };
                        },
                    },
                ],
                [6, "voltage", tuya.valueConverter.raw],
                [6, "current", tuya.valueConverter.raw],
                [6, "power", tuya.valueConverter.raw],
                // [9,'',tuya.valueConverter.raw] // Unknown / datatype=5 (bitmap)
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_ves1ycwx", "_TZE284_ves1ycwx", "_TZE200_ves1ycwx"]),
        model: "SPM02",
        vendor: "Tuya",
        description: "Smart energy monitor for 3P+N system",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            tuya.exposes.voltageWithPhase("X"),
            tuya.exposes.voltageWithPhase("Y"),
            tuya.exposes.voltageWithPhase("Z"),
            tuya.exposes.powerWithPhase("X"),
            tuya.exposes.powerWithPhase("Y"),
            tuya.exposes.powerWithPhase("Z"),
            tuya.exposes.currentWithPhase("X"),
            tuya.exposes.currentWithPhase("Y"),
            tuya.exposes.currentWithPhase("Z"),
            // Change the description according to the specifications of the device
            e
                .energy()
                .withDescription("Total forward active energy"),
            e.produced_energy().withDescription("Total reverse active energy"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "energy", tuya.valueConverter.divideBy100],
                [2, "produced_energy", tuya.valueConverter.divideBy100],
                [6, null, tuya.valueConverter.phaseVariant2WithPhase("X")],
                [7, null, tuya.valueConverter.phaseVariant2WithPhase("Y")],
                [8, null, tuya.valueConverter.phaseVariant2WithPhase("Z")],
                // [9,'',tuya.valueConverter.raw] // Unknown / datatype=5 (bitmap)
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_qhlxve78", "_TZE284_qhlxve78", "_TZE204_qhlxve78"]),
        model: "SPM01V2",
        vendor: "Tuya",
        description: "Smart energy monitor for 1P+N system",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.voltage(),
            e.power(),
            e.current(),
            e.energy().withDescription("Total forward active energy"),
            e.produced_energy().withDescription("Total reverse active energy"),
            e.power_factor().withUnit("%"),
            e.ac_frequency(),
            e
                .numeric("data_report_duration", ea.SET)
                .withValueMin(30)
                .withValueMax(3600)
                .withDescription(
                    "WARNING: You must update device firmware to V3.1.3 before changing this setting! Use Tuya gateway/app to update firmware. Data report duration set (Threshold value range 30~3600 seconds)",
                ),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "energy", tuya.valueConverter.divideBy100],
                [2, "produced_energy", tuya.valueConverter.divideBy100],
                // [6, null, tuya.valueConverter.phaseVariant3],
                [15, "power_factor", tuya.valueConverter.raw],
                // [16, 'clear_energy', tuya.valueConverter.onOff],
                [
                    18,
                    "data_report_duration",
                    {
                        to: (v: number) => {
                            const value = Math.max(30, Math.min(3600, Math.round(v)));
                            const byte1 = (value >> 8) & 0xff;
                            const byte2 = value & 0xff;
                            return [
                                // Unknown what these bytes mean, possibly configures other settings of the device
                                0x01,
                                0x01,
                                0x00,
                                0x3c,
                                0x03,
                                0x01,
                                0x00,
                                0xfd,
                                0x04,
                                0x00,
                                0x00,
                                0xb4,
                                0x07,
                                0x01,
                                0x00,
                                0x00,
                                0x08,
                                0x01,
                                // Report duration
                                byte1,
                                byte2,
                                // Unknown what these bytes mean, possibly configures other settings of the device
                                0x09,
                                0x00,
                                0x00,
                                0x00,
                            ];
                        },
                    },
                ],
                [101, "ac_frequency", tuya.valueConverter.divideBy100],
                [102, "voltage", tuya.valueConverter.divideBy10],
                [103, "current", tuya.valueConverter.divideBy1000],
                [104, "power", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_v9hkz2yn", "_TZE284_v9hkz2yn", "_TZE200_v9hkz2yn"]),
        model: "SPM02V2",
        vendor: "Tuya",
        description: "Smart energy monitor for 3P+N system",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            tuya.exposes.voltageWithPhase("a"),
            tuya.exposes.voltageWithPhase("b"),
            tuya.exposes.voltageWithPhase("c"),
            tuya.exposes.powerWithPhase("a"),
            tuya.exposes.powerWithPhase("b"),
            tuya.exposes.powerWithPhase("c"),
            tuya.exposes.currentWithPhase("a"),
            tuya.exposes.currentWithPhase("b"),
            tuya.exposes.currentWithPhase("c"),
            e.energy().withDescription("Total forward active energy"),
            e.produced_energy().withDescription("Total reverse active energy"),
            e.power_factor().withUnit("%"),
            e.power(),
            e.ac_frequency(),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "energy", tuya.valueConverter.divideBy100],
                [2, "produced_energy", tuya.valueConverter.divideBy100],
                // [6, null, tuya.valueConverter.phaseVariant2WithPhase('X')],
                // [7, null, tuya.valueConverter.phaseVariant2WithPhase('Y')],
                // [8, null, tuya.valueConverter.phaseVariant2WithPhase('Z')],
                [15, "power_factor", tuya.valueConverter.raw],
                [101, "ac_frequency", tuya.valueConverter.divideBy100],
                [102, "voltage_a", tuya.valueConverter.divideBy10],
                [103, "current_a", tuya.valueConverter.divideBy1000],
                [104, "power_a", tuya.valueConverter.raw],
                [105, "voltage_b", tuya.valueConverter.divideBy10],
                [106, "current_b", tuya.valueConverter.divideBy1000],
                [107, "power_b", tuya.valueConverter.raw],
                [108, "voltage_c", tuya.valueConverter.divideBy10],
                [109, "current_c", tuya.valueConverter.divideBy1000],
                [110, "power_c", tuya.valueConverter.raw],
                [111, "power", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_dhotiauw"]),
        model: "2CT",
        vendor: "Tuya",
        description: "Bidirectional energy meter with 80A current clamp",
        extend: [tuyaBase({dp: true})],
        exposes: [
            e.ac_frequency(),
            e.voltage(),
            e.power(),
            tuya.exposes.powerWithPhase("a"),
            tuya.exposes.powerWithPhase("b"),
            tuya.exposes.currentWithPhase("a"),
            tuya.exposes.currentWithPhase("b"),
            tuya.exposes.powerFactorWithPhase("a"),
            tuya.exposes.powerFactorWithPhase("b"),
            tuya.exposes.energyWithPhase("a"),
            tuya.exposes.energyWithPhase("b"),
            e
                .numeric("update_frequency", ea.STATE_SET)
                .withUnit("s")
                .withDescription("Update frequency")
                .withValueMin(3)
                .withValueMax(60)
                .withPreset("default", 10, "Default value"),
            e.numeric("timestamp_a", ea.STATE).withDescription("Timestamp at power measure (phase a)"),
            e.numeric("timestamp_b", ea.STATE).withDescription("Timestamp at power measure (phase b)"),
            e
                .numeric("calibration_ac_frequency", ea.STATE_SET)
                .withDescription("Calibration AC frequency")
                .withValueMin(0.5)
                .withValueMax(1.5)
                .withValueStep(0.01)
                .withPreset("default", 1.0, "Default value"),
            e
                .numeric("calibration_voltage", ea.STATE_SET)
                .withDescription("Calibration voltage")
                .withValueMin(0.5)
                .withValueMax(1.5)
                .withValueStep(0.01)
                .withPreset("default", 1.0, "Default value"),
            e
                .numeric("calibration_power_a", ea.STATE_SET)
                .withDescription("Calibration power A")
                .withValueMin(0.5)
                .withValueMax(1.5)
                .withValueStep(0.01)
                .withPreset("default", 1.0, "Default value"),
            e
                .numeric("calibration_current_a", ea.STATE_SET)
                .withDescription("Calibration current A")
                .withValueMin(0.5)
                .withValueMax(1.5)
                .withValueStep(0.01)
                .withPreset("default", 1.0, "Default value"),
            e
                .numeric("calibration_power_b", ea.STATE_SET)
                .withDescription("Calibration power B")
                .withValueMin(0.5)
                .withValueMax(1.5)
                .withValueStep(0.01)
                .withPreset("default", 1.0, "Default value"),
            e
                .numeric("calibration_current_b", ea.STATE_SET)
                .withDescription("Calibration current B")
                .withValueMin(0.5)
                .withValueMax(1.5)
                .withValueStep(0.01)
                .withPreset("default", 1.0, "Default value"),
        ],
        meta: {
            multiEndpointSkip: ["power_factor", "power_factor_phase_a", "power_factor_phase_b", "energy"],
            tuyaDatapoints: [
                [105, "ac_frequency", tuya.valueConverter.divideBy100],
                [103, "power_a", tuya.valueConverter.divideBy10],
                [104, "power_b", tuya.valueConverter.divideBy10],
                [19, "power", tuya.valueConverter.divideBy10],
                [20, "voltage", tuya.valueConverter.divideBy10],
                [101, "current_a", tuya.valueConverter.divideBy1000],
                [102, "current_b", tuya.valueConverter.divideBy1000],
                [120, "power_factor_a", tuya.valueConverter.raw],
                [121, "power_factor_b", tuya.valueConverter.raw],
                [115, "energy_a", tuya.valueConverter.divideBy100],
                [117, "energy_b", tuya.valueConverter.divideBy100],
                [122, "update_frequency", tuya.valueConverter.raw],
                [123, "calibration_voltage", tuya.valueConverter.divideBy1000],
                [125, "calibration_current_a", tuya.valueConverter.divideBy1000],
                [126, "calibration_power_a", tuya.valueConverter.divideBy1000],
                [130, "calibration_current_b", tuya.valueConverter.divideBy1000],
                [131, "calibration_power_b", tuya.valueConverter.divideBy1000],
                [124, "calibration_ac_frequency", tuya.valueConverter.divideBy1000],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_iwn0gpzz", "_TZE204_iwn0gpzz", "_TZE284_iwn0gpzz"]),
        model: "SPM01V2.5",
        vendor: "Tuya",
        description: "Smart energy monitor for 1P+N system",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.voltage(),
            e.power(),
            e.current(),
            e.energy().withDescription("Total forward active energy"),
            e.produced_energy().withDescription("Total reverse active energy"),
            e.power_factor().withUnit("%"),
            e.ac_frequency(),
            e
                .numeric("data_report_duration", ea.SET)
                .withValueMin(5)
                .withValueMax(3600)
                .withDescription(
                    "WARNING: You must update device firmware to V3.2.2 before changing this setting! Use Tuya gateway/app to update firmware. Data report duration set (Threshold value range 30~3600 seconds)",
                ),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "energy", tuya.valueConverter.divideBy100],
                [
                    18,
                    "data_report_duration",
                    {
                        to: (v: number) => {
                            const value = Math.max(5, Math.min(3600, Math.round(v)));
                            const byte1 = (value >> 8) & 0xff;
                            const byte2 = value & 0xff;
                            return [
                                // Other settings of the device
                                0x01,
                                0x01,
                                0x00,
                                0x3c,
                                0x03,
                                0x01,
                                0x00,
                                0xfd,
                                0x04,
                                0x00,
                                0x00,
                                0xb4,
                                0x07,
                                0x01,
                                0x00,
                                0x00,
                                0x08,
                                0x01,
                                // Report duration
                                byte1,
                                byte2,
                                // Only modify the report duration
                                0x09,
                                0x00,
                                0x00,
                                0x00,
                            ];
                        },
                    },
                ],
                [23, "produced_energy", tuya.valueConverter.divideBy100],
                [32, "ac_frequency", tuya.valueConverter.divideBy100],
                [50, "power_factor", tuya.valueConverter.raw],
                [102, "voltage", tuya.valueConverter.divideBy10],
                [103, "current", tuya.valueConverter.divideBy1000],
                [104, "power", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_ny94onlb", "_TZE200_ny94onlb", "_TZE284_ny94onlb"]),
        model: "SPM02V2.5",
        vendor: "Tuya",
        description: "Smart energy monitor for 3P+N system",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            tuya.exposes.voltageWithPhase("a"),
            tuya.exposes.voltageWithPhase("b"),
            tuya.exposes.voltageWithPhase("c"),
            tuya.exposes.powerWithPhase("a"),
            tuya.exposes.powerWithPhase("b"),
            tuya.exposes.powerWithPhase("c"),
            tuya.exposes.currentWithPhase("a"),
            tuya.exposes.currentWithPhase("b"),
            tuya.exposes.currentWithPhase("c"),
            e.energy().withDescription("Total forward active energy"),
            e.produced_energy().withDescription("Total reverse active energy"),
            e.power_factor().withUnit("%").withDescription("Total power factor"),
            e.power(),
            e.ac_frequency(),
            e.numeric("data_report_duration", ea.SET).withValueMin(30).withValueMax(3600),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "energy", tuya.valueConverter.divideBy100],
                [
                    18,
                    "data_report_duration",
                    {
                        to: (v: number) => {
                            const value = Math.max(30, Math.min(3600, Math.round(v)));
                            const byte1 = (value >> 8) & 0xff;
                            const byte2 = value & 0xff;
                            return [
                                // Other settings of the device
                                0x01,
                                0x01,
                                0x00,
                                0x3c,
                                0x02,
                                0x00,
                                0x00,
                                0x0a,
                                0x03,
                                0x01,
                                0x00,
                                0xfd,
                                0x04,
                                0x00,
                                0x00,
                                0xb4,
                                0x05,
                                0x01,
                                0x00,
                                0x00,
                                0x07,
                                0x01,
                                0x00,
                                0x00,
                                0x08,
                                0x01,
                                // Report duration
                                byte1,
                                byte2,
                                // Only modify the report duration
                                0x09,
                                0x00,
                                0x00,
                                0x00,
                            ];
                        },
                    },
                ],
                [23, "produced_energy", tuya.valueConverter.divideBy100],
                [29, "power", tuya.valueConverter.raw],
                [32, "ac_frequency", tuya.valueConverter.divideBy100],
                [50, "power_factor", tuya.valueConverter.raw],
                [102, "voltage_a", tuya.valueConverter.divideBy10],
                [103, "current_a", tuya.valueConverter.divideBy1000],
                [104, "power_a", tuya.valueConverter.raw],
                [105, "voltage_b", tuya.valueConverter.divideBy10],
                [106, "current_b", tuya.valueConverter.divideBy1000],
                [107, "power_b", tuya.valueConverter.raw],
                [108, "voltage_c", tuya.valueConverter.divideBy10],
                [109, "current_c", tuya.valueConverter.divideBy1000],
                [110, "power_c", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_dikb3dp6", "_TZE204_dikb3dp6", "_TZE284_dikb3dp6"]),
        model: "SPM02V3",
        vendor: "Tuya",
        description: "Smart energy monitor for 3P+N system",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            tuya.exposes.voltageWithPhase("a"),
            tuya.exposes.voltageWithPhase("b"),
            tuya.exposes.voltageWithPhase("c"),
            tuya.exposes.powerWithPhase("a"),
            tuya.exposes.powerWithPhase("b"),
            tuya.exposes.powerWithPhase("c"),
            tuya.exposes.currentWithPhase("a"),
            tuya.exposes.currentWithPhase("b"),
            tuya.exposes.currentWithPhase("c"),
            e.energy().withDescription("Total forward active energy"),
            e.produced_energy().withDescription("Total reverse active energy"),
            e.power_factor().withUnit("%").withDescription("Total power factor"),
            e.power().withDescription("Total active power"),
            e.ac_frequency(),
            tuya.exposes.energyWithPhase("a"),
            tuya.exposes.energyWithPhase("b"),
            tuya.exposes.energyWithPhase("c"),
            tuya.exposes.energyProducedWithPhase("a"),
            tuya.exposes.energyProducedWithPhase("b"),
            tuya.exposes.energyProducedWithPhase("c"),
            tuya.exposes.powerFactorWithPhase("a"),
            tuya.exposes.powerFactorWithPhase("b"),
            tuya.exposes.powerFactorWithPhase("c"),
            e
                .numeric("update_frequency", ea.STATE_SET)
                .withUnit("s")
                .withDescription("Update frequency")
                .withValueMin(5)
                .withValueMax(3600)
                .withPreset("default", 30, "Default value"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "energy", tuya.valueConverter.divideBy100],
                [23, "produced_energy", tuya.valueConverter.divideBy100],
                [29, "power", tuya.valueConverter.raw],
                [32, "ac_frequency", tuya.valueConverter.divideBy100],
                [50, "power_factor", tuya.valueConverter.raw],
                [102, "update_frequency", tuya.valueConverterBasic.divideBy(1)],
                [103, "voltage_a", tuya.valueConverter.divideBy10],
                [104, "current_a", tuya.valueConverter.divideBy1000],
                [105, "power_a", tuya.valueConverter.raw],
                [108, "power_factor_a", tuya.valueConverter.raw],
                [109, "energy_a", tuya.valueConverter.divideBy100],
                [110, "energy_produced_a", tuya.valueConverter.divideBy100],
                [112, "voltage_b", tuya.valueConverter.divideBy10],
                [113, "current_b", tuya.valueConverter.divideBy1000],
                [114, "power_b", tuya.valueConverter.raw],
                [117, "power_factor_b", tuya.valueConverter.raw],
                [118, "energy_b", tuya.valueConverter.divideBy100],
                [119, "energy_produced_b", tuya.valueConverter.divideBy100],
                [121, "voltage_c", tuya.valueConverter.divideBy10],
                [122, "current_c", tuya.valueConverter.divideBy1000],
                [123, "power_c", tuya.valueConverter.raw],
                [126, "power_factor_c", tuya.valueConverter.raw],
                [127, "energy_c", tuya.valueConverter.divideBy100],
                [128, "energy_produced_c", tuya.valueConverter.divideBy100],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_ugekduaj", "_TZE200_ugekduaj", "_TZE204_loejka0i", "_TZE284_loejka0i"]),
        model: "SDM01",
        vendor: "Tuya",
        description: "Smart energy monitor for 3P+N system",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        whiteLabel: [tuya.whitelabel("Nous", "D4Z", "Smart energy monitor for 3P+N system", ["_TZE204_loejka0i", "_TZE284_loejka0i"])],
        exposes: [
            tuya.exposes.voltageWithPhase("a"),
            tuya.exposes.voltageWithPhase("b"),
            tuya.exposes.voltageWithPhase("c"),
            tuya.exposes.powerWithPhase("a"),
            tuya.exposes.powerWithPhase("b"),
            tuya.exposes.powerWithPhase("c"),
            tuya.exposes.currentWithPhase("a"),
            tuya.exposes.currentWithPhase("b"),
            tuya.exposes.currentWithPhase("c"),
            e.energy().withDescription("Total forward active energy"),
            e.produced_energy().withDescription("Total reverse active energy"),
            e.power_factor().withUnit("%").withDescription("Total power factor"),
            e.power().withDescription("Total active power"),
            e.ac_frequency(),
            tuya.exposes.energyWithPhase("a"),
            tuya.exposes.energyWithPhase("b"),
            tuya.exposes.energyWithPhase("c"),
            tuya.exposes.energyProducedWithPhase("a"),
            tuya.exposes.energyProducedWithPhase("b"),
            tuya.exposes.energyProducedWithPhase("c"),
            tuya.exposes.powerFactorWithPhase("a"),
            tuya.exposes.powerFactorWithPhase("b"),
            tuya.exposes.powerFactorWithPhase("c"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "energy", tuya.valueConverter.divideBy100],
                [2, "produced_energy", tuya.valueConverter.divideBy100],
                [15, "power_factor", tuya.valueConverter.raw],
                [101, "ac_frequency", tuya.valueConverter.divideBy100],
                [102, "voltage_a", tuya.valueConverter.divideBy10],
                [103, "current_a", tuya.valueConverter.divideBy1000],
                [104, "power_a", tuya.valueConverter.raw],
                [105, "voltage_b", tuya.valueConverter.divideBy10],
                [106, "current_b", tuya.valueConverter.divideBy1000],
                [107, "power_b", tuya.valueConverter.raw],
                [108, "voltage_c", tuya.valueConverter.divideBy10],
                [109, "current_c", tuya.valueConverter.divideBy1000],
                [110, "power_c", tuya.valueConverter.raw],
                [111, "power", tuya.valueConverter.raw],
                [112, "energy_a", tuya.valueConverter.divideBy100],
                [114, "energy_b", tuya.valueConverter.divideBy100],
                [116, "energy_c", tuya.valueConverter.divideBy100],
                [113, "energy_produced_a", tuya.valueConverter.divideBy100],
                [115, "energy_produced_b", tuya.valueConverter.divideBy100],
                [117, "energy_produced_c", tuya.valueConverter.divideBy100],
                [118, "power_factor_a", tuya.valueConverter.raw],
                [119, "power_factor_b", tuya.valueConverter.raw],
                [120, "power_factor_c", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_gomuk3dc", "_TZE284_gomuk3dc", "_TZE200_gomuk3dc"]),
        model: "SDM01V1.5",
        vendor: "Tuya",
        description: "Smart energy monitor for 3P+N system",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            tuya.exposes.voltageWithPhase("a"),
            tuya.exposes.voltageWithPhase("b"),
            tuya.exposes.voltageWithPhase("c"),
            tuya.exposes.powerWithPhase("a"),
            tuya.exposes.powerWithPhase("b"),
            tuya.exposes.powerWithPhase("c"),
            tuya.exposes.currentWithPhase("a"),
            tuya.exposes.currentWithPhase("b"),
            tuya.exposes.currentWithPhase("c"),
            e.energy().withDescription("Total forward active energy"),
            e.produced_energy().withDescription("Total reverse active energy"),
            e.power_factor().withUnit("%").withDescription("Total power factor"),
            e.power().withDescription("Total active power"),
            e.ac_frequency(),
            tuya.exposes.energyWithPhase("a"),
            tuya.exposes.energyWithPhase("b"),
            tuya.exposes.energyWithPhase("c"),
            tuya.exposes.energyProducedWithPhase("a"),
            tuya.exposes.energyProducedWithPhase("b"),
            tuya.exposes.energyProducedWithPhase("c"),
            tuya.exposes.powerFactorWithPhase("a"),
            tuya.exposes.powerFactorWithPhase("b"),
            tuya.exposes.powerFactorWithPhase("c"),
            e
                .numeric("update_frequency", ea.STATE_SET)
                .withUnit("s")
                .withDescription("Update frequency")
                .withValueMin(5)
                .withValueMax(3600)
                .withPreset("default", 30, "Default value"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "energy", tuya.valueConverter.divideBy100],
                [23, "produced_energy", tuya.valueConverter.divideBy100],
                [29, "power", tuya.valueConverter.raw],
                [32, "ac_frequency", tuya.valueConverter.divideBy100],
                [50, "power_factor", tuya.valueConverter.raw],
                [102, "update_frequency", tuya.valueConverterBasic.divideBy(1)],
                [103, "voltage_a", tuya.valueConverter.divideBy10],
                [104, "current_a", tuya.valueConverter.divideBy1000],
                [105, "power_a", tuya.valueConverter.raw],
                [108, "power_factor_a", tuya.valueConverter.raw],
                [109, "energy_a", tuya.valueConverter.divideBy100],
                [110, "energy_produced_a", tuya.valueConverter.divideBy100],
                [112, "voltage_b", tuya.valueConverter.divideBy10],
                [113, "current_b", tuya.valueConverter.divideBy1000],
                [114, "power_b", tuya.valueConverter.raw],
                [117, "power_factor_b", tuya.valueConverter.raw],
                [118, "energy_b", tuya.valueConverter.divideBy100],
                [119, "energy_produced_b", tuya.valueConverter.divideBy100],
                [121, "voltage_c", tuya.valueConverter.divideBy10],
                [122, "current_c", tuya.valueConverter.divideBy1000],
                [123, "power_c", tuya.valueConverter.raw],
                [126, "power_factor_c", tuya.valueConverter.raw],
                [127, "energy_c", tuya.valueConverter.divideBy100],
                [128, "energy_produced_c", tuya.valueConverter.divideBy100],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_78ioiaml", "_TZE284_78ioiaml", "_TZE200_78ioiaml"]),
        model: "SDM02V1",
        vendor: "Tuya",
        description: "Smart energy monitor for 2P+N system",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            tuya.exposes.voltageWithPhase("l1"),
            tuya.exposes.voltageWithPhase("l2"),
            tuya.exposes.powerWithPhase("l1"),
            tuya.exposes.powerWithPhase("l2"),
            tuya.exposes.currentWithPhase("l1"),
            tuya.exposes.currentWithPhase("l2"),
            e.energy().withDescription("Total forward active energy"),
            e.produced_energy().withDescription("Total reverse active energy"),
            e.power_factor().withUnit("%").withDescription("Total power factor"),
            e.power().withDescription("Total active power"),
            e.ac_frequency(),
            tuya.exposes.energyWithPhase("l1"),
            tuya.exposes.energyWithPhase("l2"),
            tuya.exposes.energyProducedWithPhase("l1"),
            tuya.exposes.energyProducedWithPhase("l2"),
            tuya.exposes.powerFactorWithPhase("l1"),
            tuya.exposes.powerFactorWithPhase("l2"),
            e
                .numeric("update_frequency", ea.STATE_SET)
                .withUnit("s")
                .withDescription("Update frequency")
                .withValueMin(5)
                .withValueMax(3600)
                .withPreset("default", 30, "Default value"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "energy", tuya.valueConverter.divideBy100],
                [23, "produced_energy", tuya.valueConverter.divideBy100],
                [29, "power", tuya.valueConverter.raw],
                [32, "ac_frequency", tuya.valueConverter.divideBy100],
                [50, "power_factor", tuya.valueConverter.raw],
                [102, "update_frequency", tuya.valueConverterBasic.divideBy(1)],
                [103, "voltage_l1", tuya.valueConverter.divideBy10],
                [104, "current_l1", tuya.valueConverter.divideBy1000],
                [105, "power_l1", tuya.valueConverter.raw],
                [108, "power_factor_l1", tuya.valueConverter.raw],
                [109, "energy_l1", tuya.valueConverter.divideBy100],
                [110, "energy_produced_l1", tuya.valueConverter.divideBy100],
                [112, "voltage_l2", tuya.valueConverter.divideBy10],
                [113, "current_l2", tuya.valueConverter.divideBy1000],
                [114, "power_l2", tuya.valueConverter.raw],
                [117, "power_factor_l2", tuya.valueConverter.raw],
                [118, "energy_l2", tuya.valueConverter.divideBy100],
                [119, "energy_produced_l2", tuya.valueConverter.divideBy100],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_ac0fhfiq", "_TZE284_ac0fhfiq"]),
        model: "TS0601_bidirectional_energy meter",
        vendor: "Tuya",
        description: "Bidirectional energy meter with 150A Current Clamp",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.energy(),
            e.produced_energy(),
            e.power(),
            e.voltage(),
            e.current(),
            e.enum("energy_flow", ea.STATE, ["consuming", "producing"]).withDescription("Direction of energy"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "energy", tuya.valueConverter.divideBy100],
                [2, "produced_energy", tuya.valueConverter.divideBy100],
                [6, null, tuya.valueConverter.phaseVariant3],
                [102, "energy_flow", tuya.valueConverterBasic.lookup({consuming: 0, producing: 1})],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", [
            "_TZE200_vmcgja59",
            "_TZE204_dvosyycn",
            "_TZE284_dvosyycn",
            "_TZE200_wktrysab",
            "_TZE204_wktrysab",
            "_TZE204_nvxorhcj",
            "_TZE204_tdhnhhiy",
        ]),
        model: "TS0601_switch_8",
        vendor: "ZYXH",
        description: "8 gang switch",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            tuya.exposes.switch().withEndpoint("l1"),
            tuya.exposes.switch().withEndpoint("l2"),
            tuya.exposes.switch().withEndpoint("l3"),
            tuya.exposes.switch().withEndpoint("l4"),
            tuya.exposes.switch().withEndpoint("l5"),
            tuya.exposes.switch().withEndpoint("l6"),
            tuya.exposes.switch().withEndpoint("l7"),
            tuya.exposes.switch().withEndpoint("l8"),
        ],
        endpoint: (device) => {
            return {l1: 1, l2: 1, l3: 1, l4: 1, l5: 1, l6: 1, l7: 1, l8: 1};
        },
        meta: {
            multiEndpoint: true,
            tuyaDatapoints: [
                [1, "state_l1", tuya.valueConverter.onOff],
                [2, "state_l2", tuya.valueConverter.onOff],
                [3, "state_l3", tuya.valueConverter.onOff],
                [4, "state_l4", tuya.valueConverter.onOff],
                [5, "state_l5", tuya.valueConverter.onOff],
                [6, "state_l6", tuya.valueConverter.onOff],
                [0x65, "state_l7", tuya.valueConverter.onOff],
                [0x66, "state_l8", tuya.valueConverter.onOff],
            ],
        },
        whiteLabel: [tuya.whitelabel("Nova Digital", "ZTS-8W-B", "8 Gang Switch", ["_TZE204_nvxorhcj"])],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_adlblwab"]),
        model: "TS0601_switch_8_2",
        vendor: "Tuya",
        description: "8 gang switch",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            tuya.exposes.switch().withEndpoint("l1"),
            tuya.exposes.switch().withEndpoint("l2"),
            tuya.exposes.switch().withEndpoint("l3"),
            tuya.exposes.switch().withEndpoint("l4"),
            tuya.exposes.switch().withEndpoint("l5"),
            tuya.exposes.switch().withEndpoint("l6"),
            tuya.exposes.switch().withEndpoint("l7"),
            tuya.exposes.switch().withEndpoint("l8"),
            tuya.exposes.countdown().withEndpoint("l1"),
            tuya.exposes.countdown().withEndpoint("l2"),
            tuya.exposes.countdown().withEndpoint("l3"),
            tuya.exposes.countdown().withEndpoint("l4"),
            tuya.exposes.countdown().withEndpoint("l5"),
            tuya.exposes.countdown().withEndpoint("l6"),
            tuya.exposes.countdown().withEndpoint("l7"),
            tuya.exposes.countdown().withEndpoint("l8"),
            e.power_on_behavior().withAccess(ea.STATE_SET),
        ],
        endpoint: (device) => {
            return {l1: 1, l2: 1, l3: 1, l4: 1, l5: 1, l6: 1, l7: 1, l8: 1};
        },
        meta: {
            multiEndpoint: true,
            tuyaDatapoints: [
                [1, "state_l1", tuya.valueConverter.onOff],
                [2, "state_l2", tuya.valueConverter.onOff],
                [3, "state_l3", tuya.valueConverter.onOff],
                [4, "state_l4", tuya.valueConverter.onOff],
                [5, "state_l5", tuya.valueConverter.onOff],
                [6, "state_l6", tuya.valueConverter.onOff],
                [7, "state_l7", tuya.valueConverter.onOff],
                [8, "state_l8", tuya.valueConverter.onOff],
                [9, "countdown_l1", tuya.valueConverter.countdown],
                [10, "countdown_l2", tuya.valueConverter.countdown],
                [11, "countdown_l3", tuya.valueConverter.countdown],
                [12, "countdown_l4", tuya.valueConverter.countdown],
                [13, "countdown_l5", tuya.valueConverter.countdown],
                [14, "countdown_l6", tuya.valueConverter.countdown],
                [15, "countdown_l7", tuya.valueConverter.countdown],
                [16, "countdown_l8", tuya.valueConverter.countdown],
                [27, "power_on_behavior", tuya.valueConverter.powerOnBehaviorEnum],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_7sjncirf"]),
        model: "TS0601_switch_10",
        vendor: "Tuya",
        description: "10 gang switch",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [...Array.from({length: 10}, (_, i) => tuya.exposes.switch().withEndpoint(`l${i + 1}`))],
        endpoint: (device) => {
            return {
                l1: 1,
                l2: 1,
                l3: 1,
                l4: 1,
                l5: 1,
                l6: 1,
                l7: 1,
                l8: 1,
                l9: 1,
                l10: 1,
                l11: 1,
                l12: 1,
            };
        },
        meta: {
            multiEndpoint: true,
            tuyaDatapoints: [
                [1, "state_l1", tuya.valueConverter.onOff],
                [2, "state_l2", tuya.valueConverter.onOff],
                [3, "state_l3", tuya.valueConverter.onOff],
                [4, "state_l4", tuya.valueConverter.onOff],
                [5, "state_l5", tuya.valueConverter.onOff],
                [6, "state_l6", tuya.valueConverter.onOff],
                [0x65, "state_l7", tuya.valueConverter.onOff],
                [0x66, "state_l8", tuya.valueConverter.onOff],
                [0x67, "state_l9", tuya.valueConverter.onOff],
                [0x68, "state_l10", tuya.valueConverter.onOff],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_dqolcpcp", "_TZE284_dqolcpcp"]),
        model: "TS0601_switch_12",
        vendor: "ZYXH",
        description: "12 gang switch",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [...Array.from({length: 12}, (_, i) => tuya.exposes.switch().withEndpoint(`l${i + 1}`))],
        endpoint: (device) => {
            return {
                l1: 1,
                l2: 1,
                l3: 1,
                l4: 1,
                l5: 1,
                l6: 1,
                l7: 1,
                l8: 1,
                l9: 1,
                l10: 1,
                l11: 1,
                l12: 1,
            };
        },
        meta: {
            multiEndpoint: true,
            tuyaDatapoints: [
                [1, "state_l1", tuya.valueConverter.onOff],
                [2, "state_l2", tuya.valueConverter.onOff],
                [3, "state_l3", tuya.valueConverter.onOff],
                [4, "state_l4", tuya.valueConverter.onOff],
                [5, "state_l5", tuya.valueConverter.onOff],
                [6, "state_l6", tuya.valueConverter.onOff],
                [0x65, "state_l7", tuya.valueConverter.onOff],
                [0x66, "state_l8", tuya.valueConverter.onOff],
                [0x67, "state_l9", tuya.valueConverter.onOff],
                [0x68, "state_l10", tuya.valueConverter.onOff],
                [0x69, "state_l11", tuya.valueConverter.onOff],
                [0x6a, "state_l12", tuya.valueConverter.onOff],
            ],
        },
    },
    // TS011F
    {
        fingerprint: tuya.fingerprint("TS011F", ["_TZ3000_8fdayfch", "_TZ3000_1hwjutgo", "_TZ3000_lnggrqqi", "_TZ3000_tvuarksa"]),
        model: "TS011F_1",
        vendor: "Tuya",
        description: "Switch",
        extend: [tuya.modernExtend.tuyaOnOff()],
        whiteLabel: [
            {vendor: "Mumubiz", model: "ZJSB9-80Z"},
            tuya.whitelabel("KTNNKG", "ZB1248-10A", "Relay switch", ["_TZ3000_8fdayfch"]),
            tuya.whitelabel("UseeLink", "SM-AZ713", "Smart water/gas valve", ["_TZ3000_tvuarksa"]),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS011F", ["_TZ3000_rqbjepe8", "_TZ3000_uwkja6z1"]),
        model: "TS011F_4",
        description: "2 gang plug",
        vendor: "Tuya",
        ota: true,
        extend: [
            tuya.modernExtend.tuyaOnOff({
                electricalMeasurements: true,
                powerOutageMemory: true,
                indicatorMode: true,
                childLock: true,
                endpoints: ["l1", "l2"],
            }),
            tuya.modernExtend.electricityMeasurementPoll(),
        ],
        endpoint: (device) => {
            return {l1: 1, l2: 2};
        },
        meta: {
            multiEndpoint: true,
            multiEndpointSkip: ["energy", "current", "voltage", "power"],
        },
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            const endpoint = device.getEndpoint(1);
            endpoint.saveClusterAttributeKeyValue("haElectricalMeasurement", {
                acCurrentDivisor: 1000,
                acCurrentMultiplier: 1,
            });
            endpoint.saveClusterAttributeKeyValue("seMetering", {
                divisor: 100,
                multiplier: 1,
            });
            device.save();
        },
        whiteLabel: [tuya.whitelabel("Nous", "A4Z", "2 gang outdoor plug", ["_TZ3000_rqbjepe8", "_TZ3000_uwkja6z1"])],
    },
    {
        fingerprint: tuya.fingerprint("TS011F", ["_TZ3000_cfnprab5", "_TZ3000_o005nuxx", "_TZ3000_gdyjfvgm"]),
        model: "TS011F_5",
        description: "Power strip 5 gang",
        vendor: "Tuya",
        extend: [
            tuya.modernExtend.tuyaOnOff({
                powerOutageMemory: true,
                childLock: true,
                endpoints: ["l1", "l2", "l3", "l4", "l5"],
            }),
        ],
        endpoint: (device) => {
            return {l1: 1, l2: 2, l3: 3, l4: 4, l5: 5};
        },
        meta: {multiEndpoint: true},
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            for (const ID of [1, 2, 3, 4, 5]) {
                await reporting.bind(device.getEndpoint(ID), coordinatorEndpoint, ["genOnOff"]);
            }
        },
        whiteLabel: [
            tuya.whitelabel("UseeLink", "SM-0306E-2W", "4 gang switch, with USB", ["_TZ3000_cfnprab5"]),
            tuya.whitelabel("UseeLink", "SM-O301-AZ", "AU 4 plug 10A power board + USB", ["_TZ3000_o005nuxx"]),
        ],
    },
    {
        zigbeeModel: ["SM0202"],
        model: "SM0202",
        vendor: "Tuya",
        description: "Motion sensor",
        fromZigbee: [fz.ias_occupancy_alarm_1_with_timeout, fz.battery],
        toZigbee: [],
        exposes: [e.occupancy(), e.battery_low(), e.battery(), e.battery_voltage()],
        configure: async (device, coordinatorEndpoint) => {
            const endpoint = device.getEndpoint(1);
            await reporting.bind(endpoint, coordinatorEndpoint, ["genPowerCfg"]);
            await reporting.batteryPercentageRemaining(endpoint);
        },
        whiteLabel: [
            tuya.whitelabel("Cleverio", "SS200", "Motion sensor", ["_TYZB01_z2umiwvq"]),
            tuya.whitelabel("Marmitek", "SM0202_1", "Motion sensor", ["_TYZB01_yr95mpib"]),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS0001", ["_TZ3210_dse8ogfy", "_TZ3210_j4pdtz9v", "_TZ3210_7vgttna6", "_TZ3210_a04acm9s", "_TZ3210_cm9mbpr1"]),
        model: "TS0001_fingerbot",
        vendor: "Tuya",
        description: "Zigbee fingerbot plus",
        whiteLabel: [tuya.whitelabel("Adaprox", "TS0001_fingerbot_1", "Zigbee fingerbot plus", ["_TZ3210_dse8ogfy"])],
        fromZigbee: [fz.on_off],
        toZigbee: [tz.on_off],
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.switch(),
            e.battery(),
            e.enum("mode", ea.STATE_SET, ["click", "switch", "program"]).withDescription("Working mode"),
            e.numeric("lower", ea.STATE_SET).withValueMin(50).withValueMax(100).withValueStep(1).withUnit("%").withDescription("Down movement limit"),
            e.numeric("upper", ea.STATE_SET).withValueMin(0).withValueMax(50).withValueStep(1).withUnit("%").withDescription("Up movement limit"),
            e.numeric("delay", ea.STATE_SET).withValueMin(0).withValueMax(10).withValueStep(1).withUnit("s").withDescription("Sustain time"),
            e.binary("reverse", ea.STATE_SET, "ON", "OFF").withDescription("Reverse"),
            e.binary("touch", ea.STATE_SET, "ON", "OFF").withDescription("Touch control"),
        ],
        configure: async (device, coordinatorEndpoint) => {
            await reporting.bind(device.getEndpoint(1), coordinatorEndpoint, ["genOnOff"]);
        },
        meta: {
            tuyaSendCommand: "sendData",
            tuyaDatapoints: [
                [
                    0x65,
                    "mode",
                    tuya.valueConverterBasic.lookup({
                        click: tuya.enum(0),
                        switch: tuya.enum(1),
                        program: tuya.enum(2),
                    }),
                ],
                [0x66, "lower", tuya.valueConverter.raw],
                [0x67, "delay", tuya.valueConverter.raw],
                [
                    0x68,
                    "reverse",
                    tuya.valueConverterBasic.lookup({
                        ON: tuya.enum(1),
                        OFF: tuya.enum(0),
                    }),
                ],
                [0x69, "battery", tuya.valueConverter.raw],
                [0x6a, "upper", tuya.valueConverter.raw],
                [0x6b, "touch", tuya.valueConverterBasic.lookup({ON: true, OFF: false})],
                // ? [0x6c, '', tuya.valueConverter.onOff],
                [0x6d, "program", tuya.valueConverter.raw],
                // ? [0x70, '', tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_8eazvzo6"]),
        model: "SWS6TZ-WHITE",
        vendor: "Tuya",
        description: "6 gang wall switch",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.switch().withEndpoint("l1"),
            e.switch().withEndpoint("l2"),
            e.switch().withEndpoint("l3"),
            e.switch().withEndpoint("l4"),
            e.switch().withEndpoint("l5"),
            e.switch().withEndpoint("l6"),
            e.current(),
            e.power(),
            e.voltage(),
        ],
        endpoint: (device) => {
            return {l1: 1, l2: 1, l3: 1, l4: 1, l5: 1, l6: 1};
        },
        meta: {
            multiEndpoint: true,
            tuyaDatapoints: [
                [1, "state_l1", tuya.valueConverter.onOff],
                [2, "state_l2", tuya.valueConverter.onOff],
                [3, "state_l3", tuya.valueConverter.onOff],
                [4, "state_l4", tuya.valueConverter.onOff],
                [5, "state_l5", tuya.valueConverter.onOff],
                [6, "state_l6", tuya.valueConverter.onOff],
                [21, "current", tuya.valueConverter.divideBy1000],
                [22, "power", tuya.valueConverter.divideBy10],
                [23, "voltage", tuya.valueConverter.divideBy10],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_0j5jma9b", "_TZE200_h2rctifa"]),
        model: "ZS-TYG3-SM-61Z",
        vendor: "Tuya",
        description: "Smart switch (4 gang + 2 scene) with backlight and neutral wire",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            tuya.exposes.switch().withDescription("All Switches"),
            tuya.exposes.switch().withEndpoint("l1"),
            tuya.exposes.switch().withEndpoint("l2"),
            tuya.exposes.switch().withEndpoint("l3"),
            tuya.exposes.switch().withEndpoint("l4"),
            tuya.exposes.switch().withEndpoint("l5"),
            tuya.exposes.switch().withEndpoint("l6"),
            tuya.exposes.backlightModeOffOn().withAccess(ea.STATE_SET),
            tuya.exposes.countdown().withEndpoint("l1"),
            tuya.exposes.countdown().withEndpoint("l2"),
            tuya.exposes.countdown().withEndpoint("l3"),
            tuya.exposes.countdown().withEndpoint("l4"),
            tuya.exposes.countdown().withEndpoint("l5"),
            tuya.exposes.countdown().withEndpoint("l6"),
            e.power_on_behavior().withAccess(ea.STATE_SET),
        ],
        endpoint: (device) => {
            return {
                l1: 1,
                l2: 1,
                l3: 1,
                l4: 1,
                l5: 1,
                l6: 1,
                state: 1,
                backlight: 1,
            };
        },
        meta: {
            multiEndpoint: true,
            tuyaDatapoints: [
                [1, "state_l1", tuya.valueConverter.onOff],
                [2, "state_l2", tuya.valueConverter.onOff],
                [3, "state_l3", tuya.valueConverter.onOff],
                [4, "state_l4", tuya.valueConverter.onOff],
                [5, "state_l5", tuya.valueConverter.onOff],
                [6, "state_l6", tuya.valueConverter.onOff],
                [7, "countdown_l1", tuya.valueConverter.countdown],
                [8, "countdown_l2", tuya.valueConverter.countdown],
                [9, "countdown_l3", tuya.valueConverter.countdown],
                [10, "countdown_l4", tuya.valueConverter.countdown],
                [11, "countdown_l5", tuya.valueConverter.countdown],
                [12, "countdown_l6", tuya.valueConverter.countdown],
                [13, "state", tuya.valueConverter.onOff],
                [14, "power_on_behavior", tuya.valueConverter.powerOnBehaviorEnum],
                [16, "backlight_mode", tuya.valueConverter.onOff],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_wunufsil"]),
        model: "ZS-TYG3-SM-21Z",
        vendor: "Tuya",
        description: "2 gang smart switch with backlight and neutral wire",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            tuya.exposes.switch().withDescription("All Switches"),
            tuya.exposes.switch().withEndpoint("l1"),
            tuya.exposes.switch().withEndpoint("l2"),
            tuya.exposes.backlightModeOffOn().withAccess(ea.STATE_SET),
            tuya.exposes.countdown().withEndpoint("l1"),
            tuya.exposes.countdown().withEndpoint("l2"),
            e.power_on_behavior().withAccess(ea.STATE_SET),
        ],
        endpoint: (device) => {
            return {l1: 1, l2: 1, state: 1, backlight: 1};
        },
        meta: {
            multiEndpoint: true,
            tuyaDatapoints: [
                [1, "state_l1", tuya.valueConverter.onOff],
                [2, "state_l2", tuya.valueConverter.onOff],
                [7, "countdown_l1", tuya.valueConverter.countdown],
                [8, "countdown_l2", tuya.valueConverter.countdown],
                [13, "state", tuya.valueConverter.onOff],
                [14, "power_on_behavior", tuya.valueConverter.powerOnBehaviorEnum],
                [16, "backlight_mode", tuya.valueConverter.onOff],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_vhy3iakz"]),
        model: "ZS-TYG3-SM-31Z",
        vendor: "Tuya",
        description: "3 gang smart switch with backlight and neutral wire",
        exposes: [
            tuya.exposes.switch().withDescription("All Switches"),
            tuya.exposes.switch().withEndpoint("l1"),
            tuya.exposes.switch().withEndpoint("l2"),
            tuya.exposes.switch().withEndpoint("l3"),
            tuya.exposes.backlightModeOffOn().withAccess(ea.STATE_SET),
            tuya.exposes.countdown().withEndpoint("l1"),
            tuya.exposes.countdown().withEndpoint("l2"),
            tuya.exposes.countdown().withEndpoint("l3"),
            e.power_on_behavior(["off", "on", "previous"]).withAccess(ea.STATE_SET),
        ],
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        endpoint: (device) => {
            return {l1: 1, l2: 1, l3: 1, state: 1, backlight: 1};
        },
        meta: {
            multiEndpoint: true,
            tuyaDatapoints: [
                [1, "state_l1", tuya.valueConverter.onOff],
                [2, "state_l2", tuya.valueConverter.onOff],
                [3, "state_l3", tuya.valueConverter.onOff],
                [7, "countdown_l1", tuya.valueConverter.countdown],
                [8, "countdown_l2", tuya.valueConverter.countdown],
                [9, "countdown_l3", tuya.valueConverter.countdown],
                [13, "state", tuya.valueConverter.onOff],
                [14, "power_on_behavior", tuya.valueConverter.powerOnBehaviorEnum],
                [16, "backlight_mode", tuya.valueConverter.onOff],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_k6jhsr0q", "_TZE204_unsxl4ir"]),
        model: "ZS-TYG3-SM-41Z",
        vendor: "Tuya",
        description: "4 gang smart switch with backlight and neutral wire",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            tuya.exposes.switch().withDescription("All Switches"),
            tuya.exposes.switch().withEndpoint("l1"),
            tuya.exposes.switch().withEndpoint("l2"),
            tuya.exposes.switch().withEndpoint("l3"),
            tuya.exposes.switch().withEndpoint("l4"),
            tuya.exposes.backlightModeOffOn().withAccess(ea.STATE_SET),
            tuya.exposes.countdown().withEndpoint("l1"),
            tuya.exposes.countdown().withEndpoint("l2"),
            tuya.exposes.countdown().withEndpoint("l3"),
            tuya.exposes.countdown().withEndpoint("l4"),
            e.power_on_behavior(["off", "on", "previous"]).withAccess(ea.STATE_SET),
        ],
        endpoint: (device) => {
            return {l1: 1, l2: 1, l3: 1, l4: 1, state: 1, backlight: 1};
        },
        meta: {
            multiEndpoint: true,
            tuyaDatapoints: [
                [1, "state_l1", tuya.valueConverter.onOff],
                [2, "state_l2", tuya.valueConverter.onOff],
                [3, "state_l3", tuya.valueConverter.onOff],
                [4, "state_l4", tuya.valueConverter.onOff],
                [7, "countdown_l1", tuya.valueConverter.countdown],
                [8, "countdown_l2", tuya.valueConverter.countdown],
                [9, "countdown_l3", tuya.valueConverter.countdown],
                [10, "countdown_l4", tuya.valueConverter.countdown],
                [13, "state", tuya.valueConverter.onOff],
                [14, "power_on_behavior", tuya.valueConverter.powerOnBehaviorEnum],
                [16, "backlight_mode", tuya.valueConverter.onOff],
            ],
        },
        whiteLabel: [tuya.whitelabel("Nova Digital", "FZB-4", "Interruptor de 4 canais com backlight e neutro", ["TZE204_unsxl4ir"])],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_nvodulvi"]),
        model: "M9-zigbee-SL",
        vendor: "Tuya",
        description: "Smart Switch (4 gang + 4 scene) with neutral wire and motion sensing",
        fromZigbee: [fz.ias_occupancy_only_alarm_2, tuya.fz.indicator_mode],
        toZigbee: [tuya.tz.power_on_behavior_1, tuya.tz.backlight_indicator_mode_1],
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            ...[1, 2, 3, 4, 5, 6, 7, 8].map((i) => tuya.exposes.switch().withEndpoint(`l${i}`)),
            ...[1, 2, 3, 4, 5, 6, 7, 8].map((i) => e.power_on_behavior().withAccess(ea.STATE_SET).withEndpoint(`l${i}`)),
            ...[1, 2, 3, 4, 5, 6, 7, 8].map((i) => tuya.exposes.switchMode().withEndpoint(`l${i}`)),
            ...[1, 2, 3, 4, 5, 6, 7, 8].map((i) => tuya.exposes.lightMode().withEndpoint(`l${i}`)),
            tuya.exposes.backlightModeOffOn().withAccess(ea.STATE_SET),
            e.action(["scene_1", "scene_2", "scene_3", "scene_4", "scene_5", "scene_6", "scene_7", "scene_8"]),
            e.presence(),
            new exposes.Numeric("delay", ea.STATE_SET).withUnit("sec").withDescription("light off delay").withValueMin(0).withValueMax(1000),
        ],
        endpoint: (device) => {
            return {
                l1: 1,
                l2: 1,
                l3: 1,
                l4: 1,
                l5: 1,
                l6: 1,
                state: 1,
                backlight: 1,
                l7: 1,
                l8: 1,
            };
        },
        meta: {
            multiEndpoint: true,
            tuyaDatapoints: [
                [1, "state_l1", tuya.valueConverter.onOff],
                [2, "state_l2", tuya.valueConverter.onOff],
                [3, "state_l3", tuya.valueConverter.onOff],
                [4, "state_l4", tuya.valueConverter.onOff],
                [5, "state_l5", tuya.valueConverter.onOff],
                [6, "state_l6", tuya.valueConverter.onOff],
                [16, "backlight_mode", tuya.valueConverter.onOff],
                [29, "power_on_behavior_l1", tuya.valueConverter.powerOnBehaviorEnum],
                [30, "power_on_behavior_l2", tuya.valueConverter.powerOnBehaviorEnum],
                [31, "power_on_behavior_l3", tuya.valueConverter.powerOnBehaviorEnum],
                [32, "power_on_behavior_l4", tuya.valueConverter.powerOnBehaviorEnum],
                [33, "power_on_behavior_l5", tuya.valueConverter.powerOnBehaviorEnum],
                [34, "power_on_behavior_l6", tuya.valueConverter.powerOnBehaviorEnum],
                [101, "action", tuya.valueConverter.static("scene_1")],
                [102, "action", tuya.valueConverter.static("scene_2")],
                [103, "action", tuya.valueConverter.static("scene_3")],
                [104, "action", tuya.valueConverter.static("scene_4")],
                [105, "presence", tuya.valueConverter.raw],
                [106, "delay", tuya.valueConverter.raw],
                [108, "action", tuya.valueConverter.static("scene_5")],
                [109, "action", tuya.valueConverter.static("scene_6")],
                [110, "action", tuya.valueConverter.static("scene_7")],
                [111, "action", tuya.valueConverter.static("scene_8")],
                [112, "state_l7", tuya.valueConverter.onOff],
                [113, "state_l8", tuya.valueConverter.onOff],
                [114, "switch_mode_l1", tuya.valueConverter.switchMode],
                [115, "switch_mode_l2", tuya.valueConverter.switchMode],
                [116, "switch_mode_l3", tuya.valueConverter.switchMode],
                [117, "switch_mode_l4", tuya.valueConverter.switchMode],
                [118, "switch_mode_l5", tuya.valueConverter.switchMode],
                [119, "switch_mode_l6", tuya.valueConverter.switchMode],
                [120, "switch_mode_l7", tuya.valueConverter.switchMode],
                [121, "switch_mode_l8", tuya.valueConverter.switchMode],
                [122, "light_mode_l1", tuya.valueConverter.lightMode],
                [123, "light_mode_l2", tuya.valueConverter.lightMode],
                [124, "light_mode_l3", tuya.valueConverter.lightMode],
                [125, "light_mode_l4", tuya.valueConverter.lightMode],
                [126, "light_mode_l5", tuya.valueConverter.lightMode],
                [127, "light_mode_l6", tuya.valueConverter.lightMode],
                [128, "light_mode_l7", tuya.valueConverter.lightMode],
                [129, "light_mode_l8", tuya.valueConverter.lightMode],
                [130, "power_on_behavior_l7", tuya.valueConverter.powerOnBehaviorEnum],
                [131, "power_on_behavior_l8", tuya.valueConverter.powerOnBehaviorEnum],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_sooucan5", "_TZE204_oqtpvx51"]),
        model: "YXZBRB58",
        vendor: "Tuya",
        description: "Smart human presence sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.illuminance(),
            e.presence(),
            e.numeric("target_distance", ea.STATE).withDescription("Distance to target").withUnit("m"),
            e.numeric("radar_sensitivity", ea.STATE_SET).withValueMin(0).withValueMax(9).withValueStep(1).withDescription("Sensitivity of the radar"),
            e
                .numeric("minimum_range", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(10)
                .withValueStep(0.1)
                .withDescription("Minimum range")
                .withUnit("m"),
            e
                .numeric("maximum_range", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(10)
                .withValueStep(0.1)
                .withDescription("Maximum range")
                .withUnit("m"),
            e
                .numeric("detection_delay", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(10)
                .withValueStep(0.1)
                .withDescription("Detection delay")
                .withUnit("s"),
            e.numeric("fading_time", ea.STATE_SET).withValueMin(0).withValueMax(1500).withValueStep(1).withDescription("Fading time").withUnit("s"),
            e
                .enum("radar_scene", ea.STATE_SET, ["default", "bathroom", "bedroom", "sleeping", "unknown"])
                .withDescription("Presets for sensitivity for presence and movement"),
        ],
        meta: {
            tuyaDatapoints: [
                [0x01, "presence", tuya.valueConverter.trueFalse1],
                [0x02, "radar_sensitivity", tuya.valueConverter.raw],
                [0x03, "minimum_range", tuya.valueConverter.divideBy100],
                [0x04, "maximum_range", tuya.valueConverter.divideBy100],
                [0x65, "illuminance", tuya.valueConverter.raw],
                [0x66, "detection_delay", tuya.valueConverter.divideBy10],
                [0x67, "fading_time", tuya.valueConverter.divideBy10],
                [
                    0x68,
                    "radar_scene",
                    tuya.valueConverterBasic.lookup({
                        default: tuya.enum(0),
                        bathroom: tuya.enum(1),
                        bedroom: tuya.enum(2),
                        sleeping: tuya.enum(3),
                        unknown: tuya.enum(4),
                    }),
                ],
                [0x69, "target_distance", tuya.valueConverter.divideBy100],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_86nbew0j", "_TZE200_io0zdqh1", "_TZE200_drs6j6m5", "_TZE200_ywe90lt0", "_TZE200_qyss8gjy"]),
        model: "TS0601_light",
        vendor: "Tuya",
        description: "Light",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [tuya.exposes.lightBrightness(), e.power_on_behavior().withAccess(ea.STATE_SET)],
        meta: {
            tuyaDatapoints: [
                [1, "state", tuya.valueConverter.onOff, {skip: tuya.skip.stateOnAndBrightnessPresent}],
                [2, "power_on_behavior", tuya.valueConverter.powerOnBehavior],
                [3, "brightness", tuya.valueConverter.scale0_254to0_1000],
            ],
        },
        whiteLabel: [
            tuya.whitelabel("Ltech", "TY-12-100-400-W1Z", "12W 100-400mA Zigbee CC Dimmable LED driver", ["_TZE200_86nbew0j"]),
            tuya.whitelabel("Ltech", "TY-75-24-G2Z2", "150W 24V Zigbee CV tunable white LED driver", ["_TZE200_io0zdqh1"]),
            tuya.whitelabel("Lifud", "LF-AAZ012-0400-42", "Zigbee dimmable LED driver 4-40W 220-240Vac", ["_TZE200_drs6j6m5"]),
            tuya.whitelabel("Lifud", "LF-GAZ150A6250-24", "Lifud Zigbee LED Driver CCT 150W 24V", ["_TZE200_ywe90lt0"]),
            tuya.whitelabel("Lifud", "LF-GAZ150B6250-24", "Lifud Zigbee LED Driver 150W 24V", ["_TZE204_drs6j6m5"]),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_k7mfgaen", "_TZE204_fncxk3ob", "_TZE284_fncxk3ob"]),
        model: "YXZBSL",
        vendor: "Tuya",
        description: "Smart siren",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.binary("alarm", ea.STATE_SET, "ON", "OFF").withDescription("Turn the light of the alarm ON/OFF"),
            e.enum("type", ea.STATE_SET, ["sound", "light", "sound+light", "normal"]).withDescription("Alarm type"),
            e.enum("volume", ea.STATE_SET, ["mute", "low", "middle", "high"]).withDescription("Volume of the alarm"),
            e
                .enum("ringtone", ea.STATE_SET, [
                    "melody1",
                    "melody2",
                    "melody3",
                    "melody4",
                    "melody5",
                    "melody6",
                    "melody7",
                    "melody8",
                    "door",
                    "water",
                    "temperature",
                    "entered",
                    "left",
                ])
                .withDescription("Ringtone of the alarm"),
            e.enum("power_type", ea.STATE, ["battery", "cable"]).withDescription("Power type"),
            e
                .numeric("duration", ea.STATE_SET)
                .withValueMin(1)
                .withValueMax(60)
                .withValueStep(1)
                .withUnit("min")
                .withDescription("Duration of the alarm"),
            e.enum("battery_level", ea.STATE, ["low", "middle", "high"]).withDescription("Battery level state"),
            e.battery(),
        ],
        meta: {
            tuyaDatapoints: [
                [
                    1,
                    "type",
                    tuya.valueConverterBasic.lookup({
                        sound: tuya.enum(0),
                        light: tuya.enum(1),
                        "sound+light": tuya.enum(2),
                        normal: tuya.enum(3),
                    }),
                ],
                [
                    5,
                    "volume",
                    tuya.valueConverterBasic.lookup({
                        low: tuya.enum(0),
                        middle: tuya.enum(1),
                        high: tuya.enum(2),
                        mute: tuya.enum(3),
                    }),
                ],
                [6, "power_type", tuya.valueConverterBasic.lookup({cable: false, battery: true})],
                [7, "duration", tuya.valueConverter.raw],
                [13, "alarm", tuya.valueConverter.onOff],
                [
                    14,
                    "battery_level",
                    tuya.valueConverterBasic.lookup({
                        low: tuya.enum(0),
                        middle: tuya.enum(1),
                        high: tuya.enum(2),
                    }),
                ],
                [15, "battery", tuya.valueConverter.raw],
                [
                    21,
                    "ringtone",
                    tuya.valueConverterBasic.lookup({
                        melody1: tuya.enum(0),
                        melody2: tuya.enum(1),
                        melody3: tuya.enum(2),
                        melody4: tuya.enum(3),
                        melody5: tuya.enum(4),
                        melody6: tuya.enum(5),
                        melody7: tuya.enum(6),
                        melody8: tuya.enum(7),
                        door: tuya.enum(8),
                        water: tuya.enum(9),
                        temperature: tuya.enum(10),
                        entered: tuya.enum(11),
                        left: tuya.enum(12),
                    }),
                ],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_vmcgja59", "_TZE284_vmcgja59"]),
        model: "ZYXH_switch_24",
        vendor: "ZYXH",
        description: "24 gang switch",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [...Array.from(Array(24).keys()).map((ep) => tuya.exposes.switch().withEndpoint(`l${ep + 1}`))],
        endpoint: (device) => {
            return {
                l1: 1,
                l2: 1,
                l3: 1,
                l4: 1,
                l5: 1,
                l6: 1,
                l7: 1,
                l8: 1,
                l9: 1,
                l10: 1,
                l11: 1,
                l12: 1,
                l13: 1,
                l14: 1,
                l15: 1,
                l16: 1,
                l17: 1,
                l18: 1,
                l19: 1,
                l20: 1,
                l21: 1,
                l22: 1,
                l23: 1,
                l24: 1,
            };
        },
        meta: {
            multiEndpoint: true,
            tuyaDatapoints: [
                [1, "state_l1", tuya.valueConverter.onOff],
                [2, "state_l2", tuya.valueConverter.onOff],
                [3, "state_l3", tuya.valueConverter.onOff],
                [4, "state_l4", tuya.valueConverter.onOff],
                [5, "state_l5", tuya.valueConverter.onOff],
                [6, "state_l6", tuya.valueConverter.onOff],
                [0x65, "state_l7", tuya.valueConverter.onOff],
                [0x66, "state_l8", tuya.valueConverter.onOff],
                [0x67, "state_l9", tuya.valueConverter.onOff],
                [0x68, "state_l10", tuya.valueConverter.onOff],
                [0x69, "state_l11", tuya.valueConverter.onOff],
                [0x6a, "state_l12", tuya.valueConverter.onOff],
                [0x6b, "state_l13", tuya.valueConverter.onOff],
                [0x6c, "state_l14", tuya.valueConverter.onOff],
                [0x6d, "state_l15", tuya.valueConverter.onOff],
                [0x6e, "state_l16", tuya.valueConverter.onOff],
                [0x6f, "state_l17", tuya.valueConverter.onOff],
                [0x70, "state_l18", tuya.valueConverter.onOff],
                [0x71, "state_l19", tuya.valueConverter.onOff],
                [0x72, "state_l20", tuya.valueConverter.onOff],
                [0x73, "state_l21", tuya.valueConverter.onOff],
                [0x74, "state_l22", tuya.valueConverter.onOff],
                [0x75, "state_l23", tuya.valueConverter.onOff],
                [0x76, "state_l24", tuya.valueConverter.onOff],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_ijxvkhd0"]),
        model: "ZY-M100-24G",
        vendor: "Tuya",
        description: "24G MmWave radar human presence motion sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.enum("state", ea.STATE, ["none", "presence", "move"]).withDescription("Presence state"),
            e.presence(),
            e.numeric("distance", ea.STATE).withUnit("m").withDescription("Target distance"),
            e.illuminance(),
            e
                .numeric("motion_sensitivity", ea.STATE_SET)
                .withValueMin(1)
                .withValueMax(10)
                .withValueStep(1)
                .withCategory("config")
                .withDescription("Motion sensitivity"),
            e
                .numeric("presence_sensitivity", ea.STATE_SET)
                .withValueMin(1)
                .withValueMax(10)
                .withValueStep(1)
                .withCategory("config")
                .withDescription("Presence sensitivity"),
            e
                .numeric("max_range", ea.STATE_SET)
                .withValueMin(1.5)
                .withValueMax(5.5)
                .withValueStep(1)
                .withUnit("m")
                .withCategory("config")
                .withDescription("Maximum range"),
            e
                .numeric("presence_timeout", ea.STATE_SET)
                .withValueMin(1)
                .withValueMax(1500)
                .withValueStep(1)
                .withUnit("s")
                .withDescription("Presence timeout"),
        ],
        meta: {
            multiEndpoint: true,
            tuyaDatapoints: [
                [112, "presence", tuya.valueConverter.trueFalse1],
                [106, "motion_sensitivity", tuya.valueConverter.divideBy10FromOnly],
                [111, "presence_sensitivity", tuya.valueConverter.divideBy10FromOnly],
                [107, "max_range", tuya.valueConverter.divideBy100],
                [109, "distance", tuya.valueConverter.divideBy100],
                [110, "presence_timeout", tuya.valueConverter.raw],
                [104, "illuminance", tuya.valueConverter.raw],
                [102, "illuminance_treshold_max", tuya.valueConverter.raw],
                [103, "illuminance_treshold_min", tuya.valueConverter.raw],
                [105, "state", tuya.valueConverterBasic.lookup({none: 0, presence: 1, move: 2})],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_7gclukjs"]),
        model: "ZY-M100-24GV2",
        vendor: "Tuya",
        description: "24G MmWave radar human presence motion sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.enum("state", ea.STATE, ["none", "presence", "move"]).withDescription("Presence state sensor"),
            e.presence().withDescription("Occupancy"),
            e.numeric("distance", ea.STATE).withUnit("m").withDescription("Target distance"),
            e.illuminance().withDescription("Illuminance sensor"),
            e.numeric("move_sensitivity", ea.STATE_SET).withValueMin(0).withValueMax(10).withValueStep(1).withDescription("Motion Sensitivity"),
            e.numeric("presence_sensitivity", ea.STATE_SET).withValueMin(0).withValueMax(10).withValueStep(1).withDescription("Presence Sensitivity"),
            e
                .numeric("detection_distance_min", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(8.25)
                .withValueStep(0.75)
                .withUnit("m")
                .withDescription("Minimum range"),
            e
                .numeric("detection_distance_max", ea.STATE_SET)
                .withValueMin(0.75)
                .withValueMax(9.0)
                .withValueStep(0.75)
                .withUnit("m")
                .withDescription("Maximum range"),
            e
                .numeric("presence_timeout", ea.STATE_SET)
                .withValueMin(1)
                .withValueMax(1500)
                .withValueStep(1)
                .withUnit("s")
                .withDescription("Fade time"),
        ],
        meta: {
            tuyaDatapoints: [
                [104, "presence", tuya.valueConverter.trueFalse1],
                [2, "move_sensitivity", tuya.valueConverter.raw],
                [102, "presence_sensitivity", tuya.valueConverter.raw],
                [3, "detection_distance_min", tuya.valueConverter.divideBy100],
                [4, "detection_distance_max", tuya.valueConverter.divideBy100],
                [9, "distance", tuya.valueConverter.divideBy10],
                [105, "presence_timeout", tuya.valueConverter.raw],
                [103, "illuminance", tuya.valueConverter.raw],
                [1, "state", tuya.valueConverterBasic.lookup({none: 0, presence: 1, move: 2})],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_ya4ft0w4", "_TZE200_ya4ft0w4", "_TZE204_gkfbdvyx", "_TZE200_gkfbdvyx"]),
        model: "ZY-M100-24GV3",
        vendor: "Tuya",
        description: "24G MmWave radar human presence motion sensor (added distance switch)",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: (device, options) => {
            const exps = [
                e.enum("state", ea.STATE, ["none", "presence", "move"]).withDescription("Presence state sensor"),
                e.presence().withDescription("Occupancy"),
                e.numeric("distance", ea.STATE).withUnit("m").withDescription("Target distance"),
                e.binary("find_switch", ea.STATE_SET, "ON", "OFF").withDescription("distance switch"),
                e.illuminance().withDescription("Illuminance sensor"),
                e.numeric("move_sensitivity", ea.STATE_SET).withValueMin(1).withValueMax(10).withValueStep(1).withDescription("Motion Sensitivity"),
                e
                    .numeric("presence_sensitivity", ea.STATE_SET)
                    .withValueMin(1)
                    .withValueMax(10)
                    .withValueStep(1)
                    .withDescription("Presence Sensitivity"),
                e
                    .numeric("presence_timeout", ea.STATE_SET)
                    .withValueMin(1)
                    .withValueMax(15000)
                    .withValueStep(1)
                    .withUnit("s")
                    .withDescription("Fade time"),
            ];
            if (!device || device.manufacturerName === "_TZE204_gkfbdvyx" || device.manufacturerName === "_TZE200_gkfbdvyx") {
                exps.push(
                    e
                        .numeric("detection_distance_min", ea.STATE_SET)
                        .withValueMin(0)
                        .withValueMax(6)
                        .withValueStep(0.5)
                        .withUnit("m")
                        .withDescription("Minimum range"),
                );
                exps.push(
                    e
                        .numeric("detection_distance_max", ea.STATE_SET)
                        .withValueMin(0.5)
                        .withValueMax(9.0)
                        .withValueStep(0.5)
                        .withUnit("m")
                        .withDescription("Maximum range"),
                );
            } else {
                exps.push(
                    e
                        .numeric("detection_distance_min", ea.STATE_SET)
                        .withValueMin(0)
                        .withValueMax(8.25)
                        .withValueStep(0.75)
                        .withUnit("m")
                        .withDescription("Minimum range"),
                );
                exps.push(
                    e
                        .numeric("detection_distance_max", ea.STATE_SET)
                        .withValueMin(0.75)
                        .withValueMax(9.0)
                        .withValueStep(0.75)
                        .withUnit("m")
                        .withDescription("Maximum range"),
                );
            }
            return exps;
        },
        meta: {
            tuyaDatapoints: [
                [
                    1,
                    null,
                    {
                        from: (v: number, meta: Fz.Meta) => {
                            if (v === 0) {
                                return {
                                    state: "none",
                                    presence: false,
                                };
                            }
                            if (v === 1) {
                                return {
                                    state: "presence",
                                    presence: true,
                                };
                            }
                            if (v === 2) {
                                return {
                                    state: "move",
                                    presence: true,
                                };
                            }
                            return {
                                state: "none",
                                presence: false,
                            };
                        },
                    },
                ],
                [2, "move_sensitivity", tuya.valueConverter.raw],
                [3, "detection_distance_min", tuya.valueConverter.divideBy100],
                [4, "detection_distance_max", tuya.valueConverter.divideBy100],
                [9, "distance", tuya.valueConverter.divideBy10],
                [101, "find_switch", tuya.valueConverter.onOff],
                [102, "presence_sensitivity", tuya.valueConverter.raw],
                [103, "illuminance", tuya.valueConverter.raw],
                [105, "presence_timeout", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_e9ajs4ft"]),
        model: "CTL-R1-TY-Zigbee",
        vendor: "Tuya",
        description: "24G radar human presence motion sensor.",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.illuminance().withUnit("lx"),
            e.presence(),
            e
                .numeric("presence_sensitivity", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(100)
                .withValueStep(1)
                .withUnit("%")
                .withDescription("Presence sensitivity"),
            e
                .numeric("detection_range", ea.STATE_SET)
                .withValueMin(1.5)
                .withValueMax(4.5)
                .withValueStep(0.1)
                .withUnit("m")
                .withDescription("Detection range"),
            e
                .numeric("detection_delay", ea.STATE_SET)
                .withValueMin(1)
                .withValueMax(600)
                .withValueStep(1)
                .withUnit("s")
                .withDescription("Presence detection delay"),
            e
                .numeric("illuminance_treshold_max", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(2000)
                .withValueStep(1)
                .withUnit("lx")
                .withDescription("The max illumiance threshold to turn on the light"),
            e
                .numeric("illuminance_treshold_min", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(2000)
                .withValueStep(1)
                .withUnit("lx")
                .withDescription("The min illumiance threshold to turn on the light"),
            e
                .binary("presence_illuminance_switch", ea.STATE_SET, true, false)
                .withDescription(`Whether to enable 'light_switch' illumination is between min/max threshold`),
            e
                .binary("light_switch", ea.STATE, "ON", "OFF")
                .withDescription("This state will determine the light on/off based on the lighting threshold and presence sensing"),
            e.binary("light_linkage", ea.STATE_SET, true, false).withDescription("Light linkage"),
            e
                .enum("detection_method", ea.STATE_SET, ["only_move", "exist_move"])
                .withDescription(`When 'only_move' is used, presence will only be triggered when there is movement`),
            e.enum("indicator_light", ea.STATE_SET, ["presence", "off", "on"]).withDescription("Controls when the indicator light is turned on"),
            e
                .binary("identify", ea.STATE_SET, true, false)
                .withDescription("After turning on, the indicator light quickly flashes, used to locate devices"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "presence", tuya.valueConverter.trueFalse1],
                [2, "presence_sensitivity", tuya.valueConverter.raw],
                [4, "detection_range", tuya.valueConverter.divideBy10],
                [101, "illuminance", tuya.valueConverter.raw],
                [102, "illuminance_treshold_max", tuya.valueConverter.raw],
                [103, "illuminance_treshold_min", tuya.valueConverter.raw],
                [104, "detection_delay", tuya.valueConverter.raw],
                [109, "presence_illuminance_switch", tuya.valueConverter.trueFalseEnum1],
                [105, "light_switch", tuya.valueConverter.onOff],
                [106, "light_linkage", tuya.valueConverter.trueFalseEnum1],
                [
                    107,
                    "indicator_light",
                    tuya.valueConverterBasic.lookup({
                        presence: tuya.enum(0),
                        off: tuya.enum(1),
                        on: tuya.enum(2),
                    }),
                ],
                [
                    108,
                    "detection_method",
                    tuya.valueConverterBasic.lookup({
                        only_move: tuya.enum(0),
                        exist_move: tuya.enum(1),
                    }),
                ],
                [113, "find_switch", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", [
            "_TZE204_sbyx0lm6",
            "_TZE204_clrdrnya",
            "_TZE204_dtzziy1e",
            "_TZE204_iaeejhvf",
            "_TZE204_mtoaryre",
            "_TZE200_mp902om5",
            "_TZE204_pfayrzcw",
            "_TZE284_4qznlkbu",
            "_TZE200_clrdrnya",
            "_TZE200_sbyx0lm6",
        ]),
        model: "MTG075-ZB-RL",
        vendor: "Tuya",
        description: "2.4G/5.8G human presence sensor with relay",
        whiteLabel: [
            tuya.whitelabel("Tuya", "MTG275-ZB-RL", "2.4G/5.8G MmWave radar human presence motion sensor", ["_TZE204_dtzziy1e"]),
            tuya.whitelabel("Tuya", "MTG035-ZB-RL", "Human presence sensor with relay", ["_TZE204_pfayrzcw"]),
            tuya.whitelabel("Tuya", "MTG235-ZB-RL", "24G Human presence sensor with relay", ["_TZE204_clrdrnya", "_TZE200_clrdrnya"]),
            tuya.whitelabel("QA", "QASZ24R", "mmWave 24 Ghz sensor with relay", ["_TZE284_4qznlkbu", "_TZE204_clrdrnya"]),
        ],
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.presence(),
            e.illuminance(),
            e.numeric("target_distance", ea.STATE).withDescription("Distance to target").withUnit("m"),
            e
                .numeric("radar_sensitivity", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(9)
                .withValueStep(1)
                .withDescription("Detection threshold for the strength of object energy"),
            e
                .numeric("detection_range", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(8)
                .withValueStep(0.1)
                .withUnit("m")
                .withDescription("Maximum distance detected by the sensor"),
            e
                .numeric("shield_range", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(8)
                .withValueStep(0.1)
                .withUnit("m")
                .withDescription("Nearest distance detected by the sensor"),
            e
                .numeric("entry_sensitivity", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(9)
                .withValueStep(1)
                .withDescription("Sensitivity threshold triggered for the first time when the target enters the detection range"),
            e
                .numeric("entry_distance_indentation", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(8)
                .withValueStep(0.1)
                .withUnit("m")
                .withDescription("Indent the distance inward based on the detection distance"),
            e
                .numeric("entry_filter_time", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(10)
                .withValueStep(0.1)
                .withUnit("s")
                .withDescription("Sensitivity threshold triggered for the first time when the target enters the detection range "),
            e
                .numeric("departure_delay", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(600)
                .withValueStep(1)
                .withUnit("s")
                .withDescription("Confirmation time after the target disappears"),
            e
                .numeric("block_time", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(10)
                .withValueStep(0.1)
                .withUnit("s")
                .withDescription("Time for the target to be detected again after switching from manned(occupy) to unmanned(unoccupy) mode"),
            e.binary("breaker_status", ea.STATE_SET, "ON", "OFF").withDescription("Remotely control the breaker in standard mode"),
            e
                .enum("breaker_mode", ea.STATE_SET, ["standard", "local"])
                .withDescription("Breaker mode: standard is remotely controlled, local is automatic"),
            e
                .numeric("illuminance_threshold", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(420)
                .withValueStep(0.1)
                .withUnit("lx")
                .withDescription("Illumination threshold for local (automatic) switching mode operation"),
            e.enum("status_indication", ea.STATE_SET, ["OFF", "ON"]).withDescription("Indicator light will flash when human presence is detected"),
            e
                .enum("sensor", ea.STATE_SET, ["on", "off", "occupied", "unoccupied"])
                .withDescription(
                    "The radar sensor can be set in four states: on, off, occupied and unoccupied. For example, if set to occupied, " +
                        "it will continue to maintain presence regardless of whether someone is present or not. If set to unoccupied, the unoccupied " +
                        "state will be maintained permanently.",
                ),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "presence", tuya.valueConverter.trueFalse1],
                [2, "radar_sensitivity", tuya.valueConverter.raw],
                [3, "shield_range", tuya.valueConverter.divideBy100],
                [4, "detection_range", tuya.valueConverter.divideBy100],
                [6, "equipment_status", tuya.valueConverter.raw],
                [9, "target_distance", tuya.valueConverter.divideBy100],
                [101, "entry_filter_time", tuya.valueConverter.divideBy10],
                [102, "departure_delay", tuya.valueConverter.raw],
                [103, "cline", tuya.valueConverter.raw],
                [104, "illuminance", tuya.valueConverter.divideBy10],
                [105, "entry_sensitivity", tuya.valueConverter.raw],
                [106, "entry_distance_indentation", tuya.valueConverter.divideBy100],
                [
                    107,
                    "breaker_mode",
                    tuya.valueConverterBasic.lookup({
                        standard: tuya.enum(0),
                        local: tuya.enum(1),
                    }),
                ],
                [
                    108,
                    "breaker_status",
                    tuya.valueConverterBasic.lookup({
                        OFF: tuya.enum(0),
                        ON: tuya.enum(1),
                    }),
                ],
                [
                    109,
                    "status_indication",
                    tuya.valueConverterBasic.lookup({
                        OFF: tuya.enum(0),
                        ON: tuya.enum(1),
                    }),
                ],
                [110, "illuminance_threshold", tuya.valueConverter.divideBy10],
                [
                    111,
                    "breaker_polarity",
                    tuya.valueConverterBasic.lookup({
                        NC: tuya.enum(0),
                        NO: tuya.enum(1),
                    }),
                ],
                [112, "block_time", tuya.valueConverter.divideBy10],
                [113, "parameter_setting_result", tuya.valueConverter.raw],
                [114, "factory_parameters", tuya.valueConverter.raw],
                [
                    115,
                    "sensor",
                    tuya.valueConverterBasic.lookup({
                        on: tuya.enum(0),
                        off: tuya.enum(1),
                        occupied: tuya.enum(2),
                        unoccupied: tuya.enum(3),
                    }),
                ],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE284_aai5grix", "_TZE204_aai5grix"]),
        model: "MTD285-ZB",
        vendor: "Wenzhi",
        description: "24GHz mmWave human presence sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.presence(),
            e.enum("state", ea.STATE, ["none", "presence", "move"]).withDescription("Presence state"),
            e.illuminance().withDescription("Measured illuminance"),
            e
                .numeric("min_distance", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(8.4)
                .withValueStep(0.1)
                .withUnit("m")
                .withDescription("Minimum detection distance"),
            e
                .numeric("max_distance", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(8.4)
                .withValueStep(0.1)
                .withUnit("m")
                .withDescription("Maximum detection distance"),
            e.numeric("target_distance", ea.STATE).withValueMin(0).withValueMax(9.9).withUnit("m").withDescription("Target distance"),
            ...Array.from({length: 11}, (_, i) =>
                e
                    .enum(`gate_enable_${String(i + 1).padStart(2, "0")}`, ea.STATE_SET, ["disable", "enable"])
                    .withDescription(`Distance gate ${i + 1} enable`),
            ),
            e.numeric("configuration_gate", ea.STATE_SET).withValueMin(1).withValueMax(11).withDescription("Select gate for threshold config"),
            e.numeric("move_threshold", ea.STATE_SET).withValueMin(0).withValueMax(99).withDescription("Configure motion detection threshold"),
            e.numeric("presence_threshold", ea.STATE_SET).withValueMin(0).withValueMax(99).withDescription("Configure presence detection threshold"),
            e.numeric("nearest_target_gate", ea.STATE).withValueMin(0).withValueMax(11).withDescription("Nearest active gate"),
            e
                .numeric("target_countdown", ea.STATE)
                .withValueMin(0)
                .withValueMax(3600)
                .withUnit("s")
                .withDescription("Target timeout countdown (debug only)"),
            e
                .numeric("target_velocity", ea.STATE)
                .withValueMin(-9.99)
                .withValueMax(9.99)
                .withUnit("m/s")
                .withDescription("Target speed with direction"),
            e
                .binary("debug_switch", ea.STATE_SET, "on", "off") // change to toggle
                .withDescription("Debug mode toggle"),
            e
                .enum("led_mode", ea.STATE_SET, ["silence", "status"]) // same as in the app
                .withDescription("LED indicator mode"),
            e.numeric("delay_time", ea.STATE_SET).withValueMin(5).withValueMax(3600).withUnit("s").withDescription("Departure delay time"),
            e
                .numeric("block_time", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(10)
                .withValueStep(0.5)
                .withUnit("s")
                .withDescription("Block time after unoccupancy"), // same as in the app
            e
                .enum("judge_logic", ea.STATE_SET, ["large_move", "small_move", "custom_move"]) // same as in the app
                .withDescription("Presence detection algorithm"),
            e
                .enum("start_noise_collect", ea.SET, ["start"]) // only button to start noise collection
                .withDescription("Start environmental background noise collection and auto adjust thresholds"),
            e
                .enum("noise_collect_status", ea.STATE, ["start", "ongoing", "complete"]) // status of noise collection
                .withDescription("Environmental background noise collection status"),
            e.enum("device_control", ea.STATE_SET, ["no_action", "restart", "reset_param"]).withDescription("Device control commands"),
            e.enum("presence_sensitivity", ea.STATE_SET, ["high", "medium", "low", "custom"]).withDescription("Presence sensitivity"),
            e.enum("move_sensitivity", ea.STATE_SET, ["high", "medium", "low", "custom"]).withDescription("Motion sensitivity"),
            e
                .enum("scene_mode", ea.STATE_SET, [
                    "custom", // more fitting and same as in the app
                    "toilet",
                    "kitchen",
                    "corridor",
                    "bedroom",
                    "living_room",
                    "meeting_room", // same as in the app
                ])
                .withDescription("Scene mode preset"),
            e.binary("illuminance_report", ea.STATE_SET, "on", "off").withDescription("Illuminance reporting toggle"),
            e.binary("move_detect", ea.STATE_SET, "on", "off").withDescription("Motion detection toggle"),
            e.binary("distance_report", ea.STATE_SET, "on", "off").withDescription("Distance reporting toggle"),
            e.binary("speed_report", ea.STATE_SET, "on", "off").withDescription("Speed reporting toggle"),
        ],
        meta: {
            tuyaDatapoints: [
                [
                    1,
                    null,
                    {
                        from: (v: number) => ({
                            presence: v !== 0,
                            state: v === 0 ? "none" : v === 1 ? "presence" : "move",
                        }),
                    },
                ],
                [3, "min_distance", tuya.valueConverter.divideBy10],
                [4, "max_distance", tuya.valueConverter.divideBy10],
                [9, "target_distance", tuya.valueConverter.divideBy10],
                [101, "gate_enable_01", tuya.valueConverterBasic.lookup({disable: tuya.enum(0), enable: tuya.enum(1)})],
                [102, "gate_enable_02", tuya.valueConverterBasic.lookup({disable: tuya.enum(0), enable: tuya.enum(1)})],
                [103, "gate_enable_03", tuya.valueConverterBasic.lookup({disable: tuya.enum(0), enable: tuya.enum(1)})],
                [104, "gate_enable_04", tuya.valueConverterBasic.lookup({disable: tuya.enum(0), enable: tuya.enum(1)})],
                [105, "gate_enable_05", tuya.valueConverterBasic.lookup({disable: tuya.enum(0), enable: tuya.enum(1)})],
                [106, "gate_enable_06", tuya.valueConverterBasic.lookup({disable: tuya.enum(0), enable: tuya.enum(1)})],
                [107, "gate_enable_07", tuya.valueConverterBasic.lookup({disable: tuya.enum(0), enable: tuya.enum(1)})],
                [108, "gate_enable_08", tuya.valueConverterBasic.lookup({disable: tuya.enum(0), enable: tuya.enum(1)})],
                [109, "gate_enable_09", tuya.valueConverterBasic.lookup({disable: tuya.enum(0), enable: tuya.enum(1)})],
                [110, "gate_enable_10", tuya.valueConverterBasic.lookup({disable: tuya.enum(0), enable: tuya.enum(1)})],
                [111, "gate_enable_11", tuya.valueConverterBasic.lookup({disable: tuya.enum(0), enable: tuya.enum(1)})],
                [112, "configuration_gate", tuya.valueConverter.raw],
                [113, "move_threshold", tuya.valueConverter.raw],
                [114, "presence_threshold", tuya.valueConverter.raw],
                [115, "nearest_target_gate", tuya.valueConverter.raw],
                [116, "target_countdown", tuya.valueConverter.raw],
                [117, "target_velocity", tuya.valueConverter.divideBy100],
                [118, "debug_switch", tuya.valueConverterBasic.lookup({off: tuya.enum(0), on: tuya.enum(1)})],
                [119, "led_mode", tuya.valueConverterBasic.lookup({silence: tuya.enum(0), status: tuya.enum(1)})],
                [120, "delay_time", tuya.valueConverter.raw],
                [121, "block_time", tuya.valueConverter.divideBy10],
                [
                    122,
                    "judge_logic",
                    tuya.valueConverterBasic.lookup({large_move: tuya.enum(0), small_move: tuya.enum(1), custom_move: tuya.enum(2)}),
                ],
                [123, "noise_collect_status", tuya.valueConverterBasic.lookup({start: tuya.enum(0), ongoing: tuya.enum(1), complete: tuya.enum(2)})], // status reporting, this line MUST above button to work properly
                [
                    123,
                    "start_noise_collect", // for button, this line MUST below status reporting
                    {
                        to: () => tuya.enum(0), // send 0 to start noise collection
                    },
                ],
                [124, "device_control", tuya.valueConverterBasic.lookup({no_action: tuya.enum(0), restart: tuya.enum(1), reset_param: tuya.enum(2)})],
                [125, "illuminance", tuya.valueConverter.raw],
                [
                    126,
                    "presence_sensitivity",
                    tuya.valueConverterBasic.lookup({high: tuya.enum(0), medium: tuya.enum(1), low: tuya.enum(2), custom: tuya.enum(3)}),
                ],
                [
                    127,
                    "move_sensitivity",
                    tuya.valueConverterBasic.lookup({high: tuya.enum(0), medium: tuya.enum(1), low: tuya.enum(2), custom: tuya.enum(3)}),
                ],
                [
                    128,
                    "scene_mode",
                    tuya.valueConverterBasic.lookup({
                        custom: tuya.enum(0), // more fitting and same as in the app
                        toilet: tuya.enum(1),
                        kitchen: tuya.enum(2),
                        corridor: tuya.enum(3),
                        bedroom: tuya.enum(4),
                        living_room: tuya.enum(5),
                        meeting_room: tuya.enum(6), // same as in the app
                    }),
                ],
                [129, "illuminance_report", tuya.valueConverterBasic.lookup({off: tuya.enum(0), on: tuya.enum(1)})],
                [130, "move_detect", tuya.valueConverterBasic.lookup({off: tuya.enum(0), on: tuya.enum(1)})],
                [131, "distance_report", tuya.valueConverterBasic.lookup({off: tuya.enum(0), on: tuya.enum(1)})],
                [132, "speed_report", tuya.valueConverterBasic.lookup({off: tuya.enum(0), on: tuya.enum(1)})],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_81yrt3lo", "_TZE284_81yrt3lo"]),
        model: "PJ-1203A",
        vendor: "Tuya",
        description: "Bidirectional energy meter with 80A current clamp",
        fromZigbee: [fzLocal.PJ1203A_strict_fz_datapoints, fzLocal.PJ1203A_sync_time_increase_seq],
        toZigbee: [tuya.tz.datapoints],
        extend: [tuya.modernExtend.tuyaBase()],
        options: [
            e
                .binary("late_energy_flow_a", ea.SET, true, false)
                .withDescription("Delay channel A publication until the next energy flow update (default false)."),
            e
                .binary("late_energy_flow_b", ea.SET, true, false)
                .withDescription("Delay channel B publication until the next energy flow update (default false)."),
            e
                .binary("signed_power_a", ea.SET, true, false)
                .withDescription("Report energy flow direction for channel A using signed power (default false)."),
            e
                .binary("signed_power_b", ea.SET, true, false)
                .withDescription("Report energy flow direction for channel B using signed power (default false)."),
            e.binary("invert_energy_flow_a", ea.SET, true, false).withDescription("Report energy flow direction inverted for channel A."),
            e.binary("invert_energy_flow_b", ea.SET, true, false).withDescription("Report energy flow direction inverted for channel B."),
            e
                .binary("single_zero_remove", ea.SET, true, false)
                .withDescription("If true then single-zero power or current values will be disgarded. The default is false."),
        ],
        exposes: [
            e.ac_frequency(),
            e.voltage(),
            tuya.exposes.powerWithPhase("a"),
            tuya.exposes.powerWithPhase("b"),
            tuya.exposes.powerWithPhase("ab"),
            tuya.exposes.currentWithPhase("a"),
            tuya.exposes.currentWithPhase("b"),
            tuya.exposes.powerFactorWithPhase("a"),
            tuya.exposes.powerFactorWithPhase("b"),
            tuya.exposes.energyFlowWithPhase("a", ["sign"]),
            tuya.exposes.energyFlowWithPhase("b", ["sign"]),
            tuya.exposes.energyWithPhase("a"),
            tuya.exposes.energyWithPhase("b"),
            tuya.exposes.energyProducedWithPhase("a"),
            tuya.exposes.energyProducedWithPhase("b"),
            e
                .numeric("update_frequency", ea.STATE_SET)
                .withUnit("s")
                .withDescription("Update frequency")
                .withValueMin(3)
                .withValueMax(60)
                .withPreset("default", 10, "Default value"),
            // Timestamp a and b are basically equivalent to last_seen
            // but they indicate when the unsigned value of power_a and power_b
            // were received. They can be several seconds in the past if
            // the publication was delayed because of the late_energy_flow options.
            e
                .text("timestamp_a", ea.STATE)
                .withDescription("Timestamp at power measure (phase a)"),
            e.text("timestamp_b", ea.STATE).withDescription("Timestamp at power measure (phase b)"),
        ],
        meta: {
            multiEndpointSkip: ["power_factor", "power_factor_phase_b", "power_factor_phase_c", "energy"],
            tuyaDatapoints: [
                [111, "ac_frequency", tuya.valueConverter.divideBy100],
                [112, "voltage", tuya.valueConverter.divideBy10],
                [101, null, convLocal.powerPJ1203A("a")], // power_a
                [105, null, convLocal.powerPJ1203A("b")], // power_b
                [113, null, convLocal.currentPJ1203A("a")], // current_a
                [114, null, convLocal.currentPJ1203A("b")], // current_b
                [110, null, convLocal.powerFactorPJ1203A("a")], // power_factor_a
                [121, null, convLocal.powerFactorPJ1203A("b")], // power_factor_b
                [102, null, convLocal.energyFlowPJ1203A("a")], // energy_flow_a or the sign of power_a
                [104, null, convLocal.energyFlowPJ1203A("b")], // energy_flow_b or the sign of power_b
                [115, null, convLocal.powerAbPJ1203A()],
                [106, null, convLocal.energyForwardPJ1203A("a")],
                [108, null, convLocal.energyForwardPJ1203A("b")],
                [107, null, convLocal.energyReversePJ1203A("a")],
                [109, null, convLocal.energyReversePJ1203A("b")],
                [129, "update_frequency", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_rks0sgb7"]),
        model: "PC311-Z-TY",
        vendor: "Tuya",
        description: "Bidirectional energy meter with 80A current clamp",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.ac_frequency(),
            e.voltage(),
            e.power(),
            e.current(),
            e.energy(),
            e.energy_produced(),
            tuya.exposes.powerWithPhase("a"),
            tuya.exposes.powerWithPhase("b"),
            tuya.exposes.currentWithPhase("a"),
            tuya.exposes.currentWithPhase("b"),
            tuya.exposes.powerFactorWithPhase("a"),
            tuya.exposes.powerFactorWithPhase("b"),
            tuya.exposes.energyWithPhase("a"),
            tuya.exposes.energyWithPhase("b"),
            tuya.exposes.energyProducedWithPhase("a"),
            tuya.exposes.energyProducedWithPhase("b"),
        ],
        meta: {
            multiEndpointSkip: ["power_factor", "power_factor_phase_b", "power_factor_phase_c", "energy"],
            tuyaDatapoints: [
                [113, "ac_frequency", tuya.valueConverter.raw],
                [108, "power_a", tuya.valueConverter.raw],
                [111, "power_b", tuya.valueConverter.raw],
                [9, "power", tuya.valueConverter.raw],
                [106, "voltage", tuya.valueConverter.divideBy10],
                [107, "current_a", tuya.valueConverter.divideBy1000],
                [110, "current_b", tuya.valueConverter.divideBy1000],
                [105, "current", tuya.valueConverter.divideBy1000],
                [109, "power_factor_a", tuya.valueConverter.raw],
                [112, "power_factor_b", tuya.valueConverter.raw],
                [1, "energy", tuya.valueConverter.divideBy100],
                [101, "energy_a", tuya.valueConverter.divideBy100],
                [103, "energy_b", tuya.valueConverter.divideBy100],
                [102, "energy_produced_a", tuya.valueConverter.divideBy100],
                [104, "energy_produced_b", tuya.valueConverter.divideBy100],
                [2, "energy_produced", tuya.valueConverter.divideBy100],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_mpbki2zm"]),
        model: "TYBAC-006",
        vendor: "Tuya",
        description: "Wall-mount thermostat for 2-pipe fan-coil unit",
        extend: [tuya.modernExtend.tuyaBase({dp: true, forceTimeUpdates: true, timeStart: "1970"})],
        options: [
            e
                .enum("control_sequence_of_operation", ea.SET, ["cooling_only", "cooling_and_heating_4-pipes"])
                .withDescription("Operating environment of the thermostat"),
            e.binary("expose_device_state", ea.SET, true, false).withDescription("Expose device power state as a separate property when enabled."),
        ],
        exposes: (device, options) => {
            const system_modes = ["off", "cool", "heat", "fan_only"];
            // Device can operate either in 2-pipe or 4-pipe configuration
            // For 2-pipe configurations remove 'heat' mode
            switch (options?.control_sequence_of_operation) {
                case "cooling_only":
                    system_modes.splice(2, 1);
                    break;
            }

            const exposes = [
                e
                    .climate()
                    .withLocalTemperature(ea.STATE)
                    .withSetpoint("current_heating_setpoint", 5, 35, 1, ea.STATE_SET)
                    .withSystemMode(["off", "cool", "heat", "fan_only"], ea.STATE_SET)
                    .withFanMode(["low", "medium", "high", "auto"], ea.STATE_SET)
                    .withLocalTemperatureCalibration(-5, 5, 0.5, ea.STATE_SET),
                e.child_lock(),
                e.min_temperature().withValueMin(5).withValueMax(15),
                e.max_temperature().withValueMin(15).withValueMax(45),
                e.binary("eco_mode", ea.STATE_SET, "ON", "OFF").withDescription("ECO mode ON/OFF"),
                e.max_temperature_limit().withDescription("ECO Heating energy-saving temperature (default: 20 ºC)").withValueMin(15).withValueMax(30),
                e.min_temperature_limit().withDescription("ECO Cooling energy-saving temperature (default: 26 ºC)").withValueMin(15).withValueMax(30),
                e.deadzone_temperature().withValueMin(0).withValueMax(5).withValueStep(1),
                e.binary("valve", ea.STATE, "OPEN", "CLOSE").withDescription("3-Way Valve State"),
                e.binary("manual_mode", ea.STATE_SET, "ON", "OFF").withDescription("Manual = ON or Schedule = OFF"),
                ...tuya.exposes.scheduleAllDays(ea.STATE_SET, "HH:MM/C HH:MM/C HH:MM/C HH:MM/C HH:MM/C HH:MM/C"),
            ];

            if (options?.expose_device_state === true) {
                exposes.unshift(e.binary("state", ea.STATE_SET, "ON", "OFF").withDescription("Turn the thermostat ON or OFF"));
            }

            return exposes;
        },
        meta: {
            publishDuplicateTransaction: true,
            tuyaDatapoints: [
                [
                    1,
                    "state",
                    {
                        to: async (v: string, meta: Tz.Meta) => {
                            if (meta.options?.expose_device_state === true) {
                                await tuya.sendDataPointBool(
                                    meta.device.endpoints[0],
                                    1,
                                    utils.getFromLookup(v, {on: true, off: false}),
                                    "dataRequest",
                                    1,
                                );
                            }
                        },
                        from: (v: boolean, meta: Fz.Meta, options?: KeyValue) => {
                            meta.state.system_mode = v === true ? (meta.state.system_mode_device ?? "cool") : "off";

                            if (options?.expose_device_state === true) {
                                return v === true ? "ON" : "OFF";
                            }

                            delete meta.state.state;
                        },
                    },
                ],
                [
                    2,
                    "system_mode",
                    {
                        // Extend system_mode to support 'off' in addition to 'cool', 'heat' and 'fan_only'
                        to: async (v: string, meta: Tz.Meta) => {
                            const entity = meta.device.endpoints[0];
                            // Power State
                            await tuya.sendDataPointBool(entity, 1, v !== "off", "dataRequest", 1);
                            switch (v) {
                                case "cool":
                                    await tuya.sendDataPointEnum(entity, 2, 0, "dataRequest", 1);
                                    break;
                                case "heat":
                                    await tuya.sendDataPointEnum(entity, 2, 1, "dataRequest", 1);
                                    break;
                                case "fan_only":
                                    await tuya.sendDataPointEnum(entity, 2, 2, "dataRequest", 1);
                                    break;
                            }
                        },
                        from: (v: number, meta: Fz.Meta) => {
                            const modes = ["cool", "heat", "fan_only"];
                            meta.state.system_mode_device = modes[v];
                            return modes[v];
                        },
                    },
                ],
                [4, "eco_mode", tuya.valueConverter.onOff],
                [16, "current_heating_setpoint", tuya.valueConverter.divideBy10],
                [19, "max_temperature", tuya.valueConverter.divideBy10],
                [24, "local_temperature", tuya.valueConverter.divideBy10],
                [26, "min_temperature", tuya.valueConverter.divideBy10],
                [27, "local_temperature_calibration", tuya.valueConverter.localTemperatureCalibration],
                [
                    28,
                    "fan_mode",
                    tuya.valueConverterBasic.lookup({
                        low: tuya.enum(0),
                        medium: tuya.enum(1),
                        high: tuya.enum(2),
                        auto: tuya.enum(3),
                    }),
                ],
                [36, "valve", tuya.valueConverterBasic.lookup({OPEN: 0, CLOSE: 1})],
                [40, "child_lock", tuya.valueConverter.lockUnlock],
                [103, "deadzone_temperature", tuya.valueConverter.raw],
                [104, "min_temperature_limit", tuya.valueConverter.divideBy10],
                [105, "max_temperature_limit", tuya.valueConverter.divideBy10],
                [106, "schedule_sunday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(7)],
                [107, "schedule_saturday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(6)],
                [108, "schedule_friday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(5)],
                [109, "schedule_thursday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(4)],
                [110, "schedule_wednesday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(3)],
                [111, "schedule_tuesday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(2)],
                [112, "schedule_monday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(1)],
                [101, "manual_mode", tuya.valueConverter.onOff],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_mhxn2jso"]),
        model: "rtsc11r",
        vendor: "Tuya",
        description: "5.8G human presence sensor with relay",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.presence(),
            e.illuminance().withUnit("lx"),
            e
                .numeric("detection_delay", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(10)
                .withValueStep(0.1)
                .withDescription("Detection delay")
                .withUnit("s"),
            e
                .numeric("detection_distance", ea.STATE)
                .withValueMin(0)
                .withValueMax(1000)
                .withValueStep(1)
                .withDescription("Distance of detected person")
                .withUnit("cm"),
            e.numeric("sensitivity", ea.STATE_SET).withValueMin(0).withValueMax(10).withValueStep(1).withDescription("Detection sensitivity"),
            e
                .numeric("keep_time", ea.STATE_SET)
                .withValueMin(5)
                .withValueMax(3600)
                .withValueStep(1)
                .withDescription("Detection keep time")
                .withUnit("s"),
            e
                .numeric("minimum_range", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(1000)
                .withValueStep(50)
                .withDescription("Minimum detection range")
                .withUnit("m"),
            e
                .numeric("maximum_range", ea.STATE_SET)
                .withValueMin(50)
                .withValueMax(1000)
                .withValueStep(50)
                .withDescription("Maximum detection range")
                .withUnit("m"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "presence", tuya.valueConverter.trueFalse1],
                [12, "detection_delay", tuya.valueConverter.divideBy10],
                [19, "detection_distance", tuya.valueConverter.raw],
                [20, "illuminance", tuya.valueConverter.raw],
                [101, "sensitivity", tuya.valueConverter.divideBy10],
                [102, "keep_time", tuya.valueConverter.raw],
                [111, "minimum_range", tuya.valueConverter.divideBy100],
                [112, "maximum_range", tuya.valueConverter.divideBy100],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_kyhbrfyl"]),
        model: "NAS-PS09B2",
        vendor: "NEO",
        description: "Human presence sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.occupancy(),
            e.enum("human_motion_state", ea.STATE, ["none", "small", "large"]).withDescription("Human Motion State"),
            e
                .numeric("departure_delay", ea.STATE_SET)
                .withUnit("s")
                .withValueMin(3)
                .withValueMax(600)
                .withValueStep(1)
                .withDescription("Presence Time"),
            e
                .numeric("radar_range", ea.STATE_SET)
                .withUnit("cm")
                .withValueMin(150)
                .withValueMax(600)
                .withValueStep(75)
                .withDescription("Motion Range Detection"),
            e
                .numeric("radar_sensitivity", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(7)
                .withValueStep(1)
                .withDescription("Motion Detection Sensitivity"),
            e
                .numeric("presence_sensitivity", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(7)
                .withValueStep(1)
                .withDescription("Motionless Detection Sensitivity"),
            e
                .numeric("dis_current", ea.STATE)
                .withUnit("cm")
                .withValueMin(0)
                .withValueMax(1000)
                .withValueStep(1)
                .withLabel("Current distance")
                .withDescription("Current Distance of Detected Motion"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "occupancy", tuya.valueConverter.trueFalse1],
                [11, "human_motion_state", tuya.valueConverterBasic.lookup({none: 0, small: 1, large: 2})],
                [12, "departure_delay", tuya.valueConverter.raw],
                [13, "radar_range", tuya.valueConverter.raw],
                [15, "radar_sensitivity", tuya.valueConverter.raw],
                [16, "presence_sensitivity", tuya.valueConverter.raw],
                [19, "dis_current", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_v1jqz5cy", "_TZE200_d9mzkhoq"]),
        model: "BLE-YL01",
        vendor: "Tuya",
        description: "Smart WiFi Zigbee chlorine meter",
        whiteLabel: [tuya.whitelabel("Tuya", "YK-S03", "Smart pH and Chlorine Tester for Swimming Pool", ["_TZE200_d9mzkhoq"])],
        // Don't query too often. Values are not always updated. https://github.com/Koenkk/zigbee2mqtt/issues/18704
        extend: [
            tuya.modernExtend.tuyaBase({
                dp: true,
                queryOnDeviceAnnounce: true,
                // https://github.com/Koenkk/zigbee2mqtt/issues/23946#issuecomment-2941182834
                queryIntervalSeconds: 10 * 60,
                respondToMcuVersionResponse: true,
            }),
            m.poll({
                key: "backlight",
                defaultIntervalSeconds: 30 * 60,
                poll: async (device) => {
                    // Set backlight ever 30 mins, otherwise device stops updating.
                    // https://github.com/Koenkk/zigbee2mqtt/issues/23946#issuecomment-3176121660
                    const ep = device.getEndpoint(1);
                    await tuya.sendDataPointValue(ep, 105, 0, "dataRequest", 1);
                    await utils.sleep(2000);
                    await tuya.sendDataPointValue(ep, 105, 0, "dataRequest", 0);
                },
            }),
        ],
        exposes: [
            e.numeric("tds", ea.STATE).withUnit("ppm").withDescription("Total Dissolved Solids"),
            e.temperature(),
            e.battery(),
            e
                .numeric("ph", ea.STATE)
                .withUnit("pH")
                .withDescription(
                    "pH value, if the pH value is lower than 6.5, it means that the water quality " +
                        "is too acidic and has impurities, and it is necessary to add disinfectant water for disinfection",
                ),
            e.numeric("ec", ea.STATE).withUnit("µS/cm").withDescription("Electrical conductivity"),
            e
                .numeric("orp", ea.STATE)
                .withUnit("mV")
                .withDescription(
                    "Oxidation Reduction Potential value. If the ORP value is above 850mv, it " +
                        "means that the disinfectant has been added too much, and it is necessary to add water or change the water for neutralization. " +
                        "If the ORP value is below 487mv, it means that too little disinfectant has been added and the pool needs to be disinfected again",
                ),
            e
                .numeric("free_chlorine", ea.STATE)
                .withUnit("mg/L")
                .withDescription(
                    "Free chlorine value. The water in the swimming pool should " +
                        "be between 6.5-8ph and ORP should be between 487-840mv, and the chlorine value will be displayed normally. Chlorine will not " +
                        "be displayed if either value is out of range",
                ),
            e.numeric("ph_max", ea.STATE_SET).withUnit("pH").withDescription("pH maximal value").withValueMin(0).withValueMax(140),
            e.numeric("ph_min", ea.STATE_SET).withUnit("pH").withDescription("pH minimal value").withValueMin(0).withValueMax(140),
            e
                .numeric("ec_max", ea.STATE_SET)
                .withUnit("µS/cm")
                .withDescription("Electrical Conductivity maximal value")
                .withValueMin(0)
                .withValueMax(20000),
            e
                .numeric("ec_min", ea.STATE_SET)
                .withUnit("µS/cm")
                .withDescription("Electrical Conductivity minimal value")
                .withValueMin(0)
                .withValueMax(20000),
            e
                .numeric("orp_max", ea.STATE_SET)
                .withUnit("mV")
                .withDescription("Oxidation Reduction Potential maximal value")
                .withValueMin(0)
                .withValueMax(1200),
            e
                .numeric("orp_min", ea.STATE_SET)
                .withUnit("mV")
                .withDescription("Oxidation Reduction Potential minimal value")
                .withValueMin(0)
                .withValueMax(1200),
            e
                .numeric("free_chlorine_max", ea.STATE_SET)
                .withUnit("mg/L")
                .withDescription("Free Chlorine maximal value")
                .withValueMin(0)
                .withValueMax(40),
            e
                .numeric("free_chlorine_min", ea.STATE_SET)
                .withUnit("mg/L")
                .withDescription("Free Chlorine minimal value")
                .withValueMin(0)
                .withValueMax(40),
            e.numeric("salinity", ea.STATE).withUnit("ppm").withDescription("Salt value"),
            e.numeric("backlightvalue", ea.STATE_SET).withUnit("gg").withDescription("Backlight Value").withValueMin(0).withValueMax(1),
        ],
        meta: {
            // All datapoints go in here
            tuyaDatapoints: [
                [1, "tds", tuya.valueConverter.raw],
                [2, "temperature", tuya.valueConverter.divideBy10],
                [7, "battery", tuya.valueConverter.raw],
                [
                    10,
                    "ph",
                    {
                        from: (v) => {
                            if (v > 99) {
                                return v / 100;
                            }
                            return v / 10;
                        },
                    },
                ],
                [11, "ec", tuya.valueConverter.raw],
                [101, "orp", tuya.valueConverter.raw],
                [102, "free_chlorine", tuya.valueConverter.divideBy10],
                [105, "backlightvalue", tuya.valueConverter.raw],
                [106, "ph_max", tuya.valueConverter.raw],
                [107, "ph_min", tuya.valueConverter.raw],
                [108, "ec_max", tuya.valueConverter.raw],
                [109, "ec_min", tuya.valueConverter.raw],
                [110, "orp_max", tuya.valueConverter.raw],
                [111, "orp_min", tuya.valueConverter.raw],
                [112, "free_chlorine_max", tuya.valueConverter.raw],
                [113, "free_chlorine_min", tuya.valueConverter.raw],
                [117, "salinity", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_mgxy2d9f"]),
        model: "SP02-ZB001",
        vendor: "iAlarm",
        description: "Infrared motion sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [e.tamper(), e.battery(), e.occupancy()],
        meta: {
            tuyaDatapoints: [
                [1, "occupancy", tuya.valueConverter.trueFalse0],
                [4, "battery", tuya.valueConverter.raw],
                [5, "tamper", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0201", ["_TZE200_iq4ygaai", "_TZE200_01fvxamo"]),
        model: "THS317-ET-TY",
        vendor: "Tuya",
        description: "Temperature sensor with probe",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [e.temperature(), e.battery()],
        whiteLabel: [tuya.whitelabel("OWON", "THS317-ET-EY", "Temperature sensor with probe", ["_TZE200_01fvxamo"])],
        meta: {
            tuyaDatapoints: [
                [1, "temperature", tuya.valueConverter.divideBy10],
                [4, "battery", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_iuk8kupi", "_TZE204_iuk8kupi"]),
        model: "DCR-RQJ",
        vendor: "Tuya",
        description: "Carbon monoxide sensor gas leak detector",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [e.gas(), tuya.exposes.gasValue().withUnit("LEL %"), e.carbon_monoxide(), e.co()],
        meta: {
            tuyaDatapoints: [
                [1, "gas", tuya.valueConverter.trueFalseEnum0],
                [2, "gas_value", tuya.valueConverter.divideBy1000],
                [18, "carbon_monoxide", tuya.valueConverter.trueFalseEnum0],
                [19, "co", tuya.valueConverter.divideBy100],
            ],
        },
    },
    {
        zigbeeModel: ["ZG-101Z"],
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_nojsjtj2", "_TZE200_vrcfo4i0"]),
        model: "ZG-101Z",
        vendor: "Loginovo",
        description: "SOS button",
        extend: [
            tuya.modernExtend.combineActions([
                tuya.modernExtend.dpAction({dp: 26, lookup: {sos: 0}}),
                tuya.modernExtend.dpAction({dp: 29, lookup: {emergency: 0}}),
            ]),
            m.iasZoneAlarm({zoneType: "generic", zoneAttributes: ["battery_low"]}),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_muvkrjr5"]),
        model: "SZR07U",
        vendor: "Tuya",
        description: "24GHz millimeter wave radar",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.presence(),
            e
                .numeric("detection_range", ea.STATE_SET)
                .withValueMin(1.5)
                .withValueMax(6)
                .withValueStep(0.75)
                .withUnit("m")
                .withDescription("Maximum range"),
            e
                .numeric("radar_sensitivity", ea.STATE_SET)
                .withValueMin(68)
                .withValueMax(90)
                .withValueStep(1)
                .withDescription("Sensitivity of the radar"),
            e
                .numeric("target_distance", ea.STATE)
                .withValueMin(0)
                .withValueMax(1000)
                .withValueStep(1)
                .withDescription("Distance of detected target")
                .withUnit("cm"),
            e.binary("indicator", ea.STATE_SET, "ON", "OFF").withDescription("LED indicator"),
            e.numeric("fading_time", ea.STATE_SET).withValueMin(3).withValueMax(1799).withValueStep(1).withDescription("Fading time").withUnit("s"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "presence", tuya.valueConverter.trueFalse1],
                [13, "detection_range", tuya.valueConverter.divideBy100],
                [16, "radar_sensitivity", tuya.valueConverter.raw],
                [19, "target_distance", tuya.valueConverter.raw],
                [101, "indicator", tuya.valueConverter.onOff],
                [102, null, null], // toggle to enable presence notifications in app is ignored
                [103, "fading_time", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0004", ["_TZ3000_5ajpkyq6", "_TZ3000_knoj8lpk"]),
        model: "TS0004_switch_module_2",
        vendor: "Tuya",
        description: "4 gang switch module",
        extend: [
            tuya.modernExtend.tuyaOnOff({
                switchType: true,
                onOffCountdown: true,
                indicatorMode: true,
                endpoints: ["l1", "l2", "l3", "l4"],
            }),
        ],
        endpoint: (device) => {
            return {l1: 1, l2: 2, l3: 3, l4: 4};
        },
        meta: {multiEndpoint: true},
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            await reporting.bind(device.getEndpoint(1), coordinatorEndpoint, ["genOnOff"]);
            await reporting.bind(device.getEndpoint(2), coordinatorEndpoint, ["genOnOff"]);
            await reporting.bind(device.getEndpoint(3), coordinatorEndpoint, ["genOnOff"]);
            await reporting.bind(device.getEndpoint(4), coordinatorEndpoint, ["genOnOff"]);
        },
        whiteLabel: [
            tuya.whitelabel("AVATTO", "ZWSM16-4-Zigbee", "4 gang switch module", ["_TZ3000_5ajpkyq6"]),
            tuya.whitelabel("iHseno", "_TZ3000_knoj8lpk", "4 gang switch module", ["_TZ3000_knoj8lpk"]),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS1002", ["_TZ3000_etufnltx"]),
        model: "F00XN00-04-1",
        vendor: "FORIA",
        description: "Dimmer 4 scenes",
        extend: [
            tuya.modernExtend.tuyaMagicPacket(),
            m.battery({voltage: true}),
            tuya.modernExtend.combineActions([
                m.actionEnumLookup<"genOnOff", undefined, ["commandTuyaAction"]>({
                    actionLookup: {scene_1: 1, scene_2: 2, scene_3: 3, scene_4: 4},
                    cluster: "genOnOff",
                    commands: ["commandTuyaAction"],
                    attribute: "data",
                    parse: (msg, attr) => msg.data[attr as "data"][1],
                }),
                m.commandsOnOff(),
                m.commandsLevelCtrl({
                    commands: ["brightness_move_up", "brightness_move_down", "brightness_stop"],
                }),
            ]),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", [
            "_TZE204_kobbcyum",
            "_TZE284_kobbcyum",
            "_TZE284_hecsejsb",
            "_TZE284_432zhuwe",
            "_TZE204_432zhuwe",
            "_TZE284_s5vuaadg",
            "_TZE284_tuhfx7tf",
        ]),
        model: "TOWSMR1",
        vendor: "Tongou",
        description: "Single-phase multifunction RCBO (DIN Module)",
        extend: [
            tuya.modernExtend.tuyaBase({
                dp: true,
                queryOnConfigure: true,
                queryIntervalSeconds: 10,
                respondToMcuVersionResponse: true,
            }),
        ],
        whiteLabel: [
            tuya.whitelabel("Tongou", "TOWSMR1-40A-AC", "Single-phase multifunction RCBO (DIN Module)", ["_TZE284_432zhuwe", "_TZE204_432zhuwe"]),
            tuya.whitelabel("Tongou", "TOWSMR1-40A-A", "Single-phase multifunction RCBO (DIN Module)", ["_TZE284_s5vuaadg"]),
            tuya.whitelabel("Tongou", "TOWSMR1-20A-AC", "Single-phase multifunction RCBO (DIN Module)", ["_TZE284_tuhfx7tf"]),
        ],
        exposes: (device, options) => {
            const exps: Expose[] = [
                tuya.exposes.switch(),
                e.temperature(),
                e.current(),
                e.power(),
                e.voltage(),
                e.energy(),
                e
                    .enum("event", ea.STATE, [
                        "normal",
                        "over_current_trip",
                        "over_power_trip",
                        "high_temp_trip",
                        "over_voltage_trip",
                        "under_voltage_trip",
                        "over_current_alarm",
                        "over_power_alarm",
                        "high_temp_alarm",
                        "over_voltage_alarm",
                        "under_voltage_alarm",
                        "remote_on",
                        "remote_off",
                        "manual_on",
                        "manual_off",
                        "leakage_trip",
                        "leakage_alarm",
                        "restore_default",
                        "automatic_closing",
                        "electricity_shortage",
                        "electricity_shortage_alarm",
                        "timing_switch_On",
                        "timing_switch_off",
                    ])
                    .withDescription("Last event of the device"),
                e.enum("over_voltage_setting", ea.STATE_SET, ["Ignore", "Alarm", "Trip"]).withDescription("Over voltage setting"),
                e
                    .numeric("over_voltage_threshold", ea.STATE_SET)
                    .withUnit("V")
                    .withDescription("Setup value on the device")
                    .withValueMin(240)
                    .withValueMax(295),
                e.enum("under_voltage_setting", ea.STATE_SET, ["Ignore", "Alarm", "Trip"]).withDescription("Under voltage setting"),
                e
                    .numeric("under_voltage_threshold", ea.STATE_SET)
                    .withUnit("V")
                    .withDescription("Setup value on the device")
                    .withValueMin(145)
                    .withValueMax(220),
                e.enum("temperature_setting", ea.STATE_SET, ["Ignore", "Alarm", "Trip"]).withDescription("Temperature setting"),
                e
                    .numeric("temperature_threshold", ea.STATE_SET)
                    .withUnit("°C")
                    .withDescription("Setup value on the device")
                    .withValueMin(-25)
                    .withValueMax(100),
                e.enum("over_power_setting", ea.STATE_SET, ["Ignore", "Alarm", "Trip"]).withDescription("Over power setting"),
                e
                    .numeric("over_power_threshold", ea.STATE_SET)
                    .withUnit("W")
                    .withDescription("Setup value on the device")
                    .withValueStep(10)
                    .withValueMin(5)
                    .withValueMax(25000),
                e
                    .binary("auto_reclosing", ea.STATE_SET, "ON", "OFF")
                    .withLabel("Auto reclosing")
                    .withDescription(
                        "When the circuit breaker trips due to voltage protection, it will automatically close when the circuit voltage returns to normal",
                    ),
                e.binary("restore_default", ea.STATE_SET, "ON", "OFF").withDescription("Turn ON to restore default settings"),
                e
                    .binary("overcurrent_recloser", ea.STATE_SET, "ON", "OFF")
                    .withLabel("Overcurrent Recloser")
                    .withDescription(
                        "When the circuit breaker trips due to overcurrent protection, it will automatically close when the circuit voltage returns to normal",
                    ),
                e
                    .binary("leakage_recloser", ea.STATE_SET, "ON", "OFF")
                    .withLabel("Leakage Recloser")
                    .withDescription(
                        "When the circuit breaker trips due to leakage protection, it will automatically close when the circuit voltage returns to normal",
                    ),
                e
                    .binary("overpower_recloser", ea.STATE_SET, "ON", "OFF")
                    .withLabel("Overpower Recloser")
                    .withDescription(
                        "When the circuit breaker trips due to overpower protection, it will automatically close when the circuit voltage returns to normal",
                    ),
            ];
            if (!device || device.manufacturerName === "_TZE284_432zhuwe" || device.manufacturerName === "_TZE204_432zhuwe") {
                exps.push(
                    e.numeric("leakage_current", ea.STATE).withUnit("mA").withDescription("Current leakage"),
                    e.enum("over_current_setting", ea.STATE_SET, ["Ignore", "Alarm", "Trip"]).withDescription("Over current setting"),
                    e
                        .numeric("over_current_threshold", ea.STATE_SET)
                        .withUnit("A")
                        .withDescription("Setup the value on the device")
                        .withValueMin(1)
                        .withValueMax(40),
                    e.enum("leakage_setting", ea.STATE_SET, ["Ignore", "Alarm", "Trip"]).withDescription("Leakage setting"),
                    e
                        .numeric("leakage_threshold", ea.STATE_SET)
                        .withUnit("mA")
                        .withDescription("Setup value on the device")
                        .withValueStep(5)
                        .withValueMin(30)
                        .withValueMax(100),
                );
            } else if (device.manufacturerName === "_TZE284_s5vuaadg") {
                exps.push(
                    e.enum("over_current_setting", ea.STATE_SET, ["Ignore", "Alarm", "Trip"]).withDescription("Over current setting"),
                    e
                        .numeric("over_current_threshold", ea.STATE_SET)
                        .withUnit("A")
                        .withDescription("Setup the value on the device")
                        .withValueMin(1)
                        .withValueMax(40),
                );
            } else if (device.manufacturerName === "_TZE284_tuhfx7tf") {
                exps.push(
                    e.numeric("leakage_current", ea.STATE).withUnit("mA").withDescription("Current leakage"),
                    e.enum("over_current_setting", ea.STATE_SET, ["Ignore", "Alarm", "Trip"]).withDescription("Over current setting"),
                    e
                        .numeric("over_current_threshold", ea.STATE_SET)
                        .withUnit("A")
                        .withDescription("Setup the value on the device")
                        .withValueMin(1)
                        .withValueMax(20),
                    e.enum("leakage_setting", ea.STATE_SET, ["Ignore", "Alarm", "Trip"]).withDescription("Leakage setting"),
                    e
                        .numeric("leakage_threshold", ea.STATE_SET)
                        .withUnit("mA")
                        .withDescription("Setup value on the device")
                        .withValueStep(5)
                        .withValueMin(30)
                        .withValueMax(100),
                );
            }
            return exps;
        },
        meta: {
            tuyaDatapoints: [
                [1, "energy", tuya.valueConverter.divideBy100],
                [6, null, tuya.valueConverter.phaseVariant2], // voltage and current
                [15, "leakage_current", tuya.valueConverter.raw],
                [16, "state", tuya.valueConverter.onOff],
                [
                    110,
                    "event",
                    tuya.valueConverterBasic.lookup({
                        normal: 0,
                        over_current_trip: 1,
                        over_power_trip: 2,
                        high_temp_trip: 3,
                        over_voltage_trip: 4,
                        under_voltage_trip: 5,
                        over_current_alarm: 6,
                        over_power_alarm: 7,
                        high_temp_alarm: 8,
                        over_voltage_alarm: 9,
                        under_voltage_alarm: 10,
                        remote_on: 11,
                        remote_off: 12,
                        manual_on: 13,
                        manual_off: 14,
                        leakage_trip: 15,
                        leakage_alarm: 16,
                        restore_default: 17,
                        automatic_closing: 18,
                        electricity_shortage: 19,
                        electricity_shortage_alarm: 20,
                        timing_switch_on: 21,
                        timing_switch_off: 22,
                    }),
                ],
                [
                    102,
                    "over_voltage_setting",
                    tuya.valueConverterBasic.lookup({
                        Ignore: tuya.enum(0),
                        Alarm: tuya.enum(1),
                        Trip: tuya.enum(2),
                    }),
                ],
                [
                    103,
                    "under_voltage_setting",
                    tuya.valueConverterBasic.lookup({
                        Ignore: tuya.enum(0),
                        Alarm: tuya.enum(1),
                        Trip: tuya.enum(2),
                    }),
                ],
                [
                    104,
                    "over_current_setting",
                    tuya.valueConverterBasic.lookup({
                        Ignore: tuya.enum(0),
                        Alarm: tuya.enum(1),
                        Trip: tuya.enum(2),
                    }),
                ],
                [
                    105,
                    "over_power_setting",
                    tuya.valueConverterBasic.lookup({
                        Ignore: tuya.enum(0),
                        Alarm: tuya.enum(1),
                        Trip: tuya.enum(2),
                    }),
                ],
                [
                    107,
                    "temperature_setting",
                    tuya.valueConverterBasic.lookup({
                        Ignore: tuya.enum(0),
                        Alarm: tuya.enum(1),
                        Trip: tuya.enum(2),
                    }),
                ],
                [
                    108,
                    "leakage_setting",
                    tuya.valueConverterBasic.lookup({
                        Ignore: tuya.enum(0),
                        Alarm: tuya.enum(1),
                        Trip: tuya.enum(2),
                    }),
                ],
                [112, "auto_reclosing", tuya.valueConverter.onOff],
                [113, "restore_default", tuya.valueConverter.onOff],
                [114, "over_current_threshold", tuya.valueConverter.raw],
                [115, "over_voltage_threshold", tuya.valueConverter.raw],
                [116, "under_voltage_threshold", tuya.valueConverter.raw],
                [117, "leakage_threshold", tuya.valueConverter.raw],
                [118, "temperature_threshold", tuya.valueConverter.divideBy10],
                [119, "over_power_threshold", tuya.valueConverter.raw],
                [131, "temperature", tuya.valueConverter.divideBy10],
                // The ones below might only work for _TZE284_432zhuwe
                // https://github.com/Koenkk/zigbee-herdsman-converters/pull/9747
                [143, "overcurrent_recloser", tuya.valueConverter.onOff],
                [144, "leakage_recloser", tuya.valueConverter.onOff],
                [145, "overpower_recloser", tuya.valueConverter.onOff],
            ],
        },
    },
    {
        fingerprint: [{modelID: "TS0601", manufacturerName: "_TZE284_6ocnqlhn"}],
        model: "TO-Q-SYS-JZT",
        vendor: "Tongou",
        description: "Din rail smart meter",
        extend: [
            tuya.modernExtend.tuyaBase({
                dp: true,
                queryOnConfigure: true,
                queryIntervalSeconds: 10,
                respondToMcuVersionResponse: true,
            }),
        ],
        exposes: [
            tuya.exposes.switch(),
            e.power(),
            e.current(),
            e.voltage(),
            e.energy(),
            e.ac_frequency(),
            e.power_factor().withUnit("%"),
            e.numeric("temperature", ea.STATE).withUnit("°C").withDescription("Current temperature"),
            e
                .enum("event", ea.STATE, [
                    "normal",
                    "over_current_trip",
                    "over_power_trip",
                    "high_temp_trip",
                    "over_voltage_trip",
                    "under_voltage_trip",
                    "over_current_alarm",
                    "over_power_alarm",
                    "high_temp_alarm",
                    "over_voltage_alarm",
                    "under_voltage_alarm",
                    "remote_on",
                    "remote_off",
                    "manual_on",
                    "manual_off",
                    "leakage_trip",
                    "leakage_alarm",
                    "restore_default",
                    "automatic_closing",
                    "electricity_shortage",
                    "electricity_shortage_alarm",
                    "timing_switch_On",
                    "timing_switch_off",
                ])
                .withDescription("Last event of the device"),
            e.enum("over_current_setting", ea.STATE_SET, ["Ignore", "Alarm", "Trip"]).withDescription("Over current setting"),
            e
                .numeric("over_current_threshold", ea.STATE_SET)
                .withUnit("A")
                .withDescription("Setup the value on the device")
                .withValueMin(1)
                .withValueMax(50),
            e.enum("over_voltage_setting", ea.STATE_SET, ["Ignore", "Alarm", "Trip"]).withDescription("Over voltage setting"),
            e
                .numeric("over_voltage_threshold", ea.STATE_SET)
                .withUnit("V")
                .withDescription("Setup value on the device")
                .withValueMin(240)
                .withValueMax(295),
            e.enum("under_voltage_setting", ea.STATE_SET, ["Ignore", "Alarm", "Trip"]).withDescription("Under voltage setting"),
            e
                .numeric("under_voltage_threshold", ea.STATE_SET)
                .withUnit("V")
                .withDescription("Setup value on the device")
                .withValueMin(90)
                .withValueMax(220),
            e.enum("temperature_setting", ea.STATE_SET, ["Ignore", "Alarm", "Trip"]).withDescription("Temperature setting"),
            e
                .numeric("temperature_threshold", ea.STATE_SET)
                .withUnit("°C")
                .withDescription("Setup value on the device")
                .withValueMin(-25)
                .withValueMax(80),
            e.enum("over_power_setting", ea.STATE_SET, ["Ignore", "Alarm", "Trip"]).withDescription("Over power setting"),
            e
                .numeric("over_power_threshold", ea.STATE_SET)
                .withUnit("W")
                .withDescription("Setup value on the device")
                .withValueMin(1000)
                .withValueMax(26000),
            e.numeric("test1", ea.STATE), // ?
            e.numeric("test5", ea.STATE), // ?
        ],
        meta: {
            tuyaDatapoints: [
                [1, "energy", tuya.valueConverter.divideBy100],
                [6, null, tuya.valueConverter.phaseVariant2],
                [13, "test1", tuya.valueConverter.raw], // ?
                [15, "leakage_current", tuya.valueConverter.raw],
                [16, "state", tuya.valueConverter.onOff],
                [32, "ac_frequency", tuya.valueConverter.divideBy100],
                [50, "power_factor", tuya.valueConverter.raw],
                [
                    102,
                    "over_voltage_setting",
                    tuya.valueConverterBasic.lookup({
                        Ignore: tuya.enum(0),
                        Alarm: tuya.enum(1),
                        Trip: tuya.enum(2),
                    }),
                ],
                [
                    103,
                    "under_voltage_setting",
                    tuya.valueConverterBasic.lookup({
                        Ignore: tuya.enum(0),
                        Alarm: tuya.enum(1),
                        Trip: tuya.enum(2),
                    }),
                ],
                [
                    104,
                    "over_current_setting",
                    tuya.valueConverterBasic.lookup({
                        Ignore: tuya.enum(0),
                        Alarm: tuya.enum(1),
                        Trip: tuya.enum(2),
                    }),
                ],
                [
                    105,
                    "over_power_setting",
                    tuya.valueConverterBasic.lookup({
                        Ignore: tuya.enum(0),
                        Alarm: tuya.enum(1),
                        Trip: tuya.enum(2),
                    }),
                ],
                [
                    107,
                    "temperature_setting",
                    tuya.valueConverterBasic.lookup({
                        Ignore: tuya.enum(0),
                        Alarm: tuya.enum(1),
                        Trip: tuya.enum(2),
                    }),
                ],
                [
                    108,
                    "leakage_setting",
                    tuya.valueConverterBasic.lookup({
                        Ignore: tuya.enum(0),
                        Alarm: tuya.enum(1),
                        Trip: tuya.enum(2),
                    }),
                ],
                [
                    110,
                    "event",
                    tuya.valueConverterBasic.lookup({
                        normal: 0,
                        over_current_trip: 1,
                        over_power_trip: 2,
                        high_temp_trip: 3,
                        over_voltage_trip: 4,
                        under_voltage_trip: 5,
                        over_current_alarm: 6,
                        over_power_alarm: 7,
                        high_temp_alarm: 8,
                        over_voltage_alarm: 9,
                        under_voltage_alarm: 10,
                        remote_on: 11,
                        remote_off: 12,
                        manual_on: 13,
                        manual_off: 14,
                        leakage_trip: 15,
                        leakage_alarm: 16,
                        restore_default: 17,
                        automatic_closing: 18,
                        electricity_shortage: 19,
                        electricity_shortage_alarm: 20,
                        timing_switch_on: 21,
                        timing_switch_off: 22,
                    }),
                ],
                [114, "over_current_threshold", tuya.valueConverter.raw],
                [115, "over_voltage_threshold", tuya.valueConverter.raw],
                [116, "under_voltage_threshold", tuya.valueConverter.raw],
                [118, "temperature_threshold", tuya.valueConverter.divideBy10],
                [119, "over_power_threshold", tuya.valueConverter.raw],
                [125, "test5", tuya.valueConverter.raw], // ?
                [131, "temperature", tuya.valueConverter.divideBy10],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_l6llgoxq"]),
        model: "EA4161C-BI",
        vendor: "Tuya",
        description: "Single-phase multifunction energy meter (DIN Module)",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [e.current(), e.power(), e.voltage(), e.energy(), e.text("meter_id", ea.STATE).withDescription("Meter ID (ID of device)")],
        meta: {
            tuyaDatapoints: [
                [1, "energy", tuya.valueConverter.divideBy100],
                [3, null, null], // Monthly, but sends data only after request
                [4, null, null], // Dayly, but sends data only after request
                [6, null, tuya.valueConverter.phaseVariant2], // voltage and current
                [
                    10,
                    "fault",
                    tuya.valueConverterBasic.lookup({
                        clear: 0,
                        over_current_threshold: 1,
                        over_power_threshold: 2,
                        over_voltage_threshold: 4,
                        wrong_frequency_threshold: 8,
                    }),
                ],
                [11, null, null], // Frozen - strange function, in native app - nothing is clear
                [16, "state", tuya.valueConverter.onOff],
                [17, null, tuya.valueConverter.threshold], // It's settable, but can't write converter
                [18, "meter_id", tuya.valueConverter.raw],
                [20, "clear_fault", tuya.valueConverter.onOff], // Clear fault
                [21, null, null], // Forward Energy T1 - don't know what this
                [22, null, null], // Forward Energy T2 - don't know what this
                [23, null, null], // Forward Energy T3 - don't know what this
                [24, null, null], // Forward Energy T4 - don't know what this
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZ3000_kkerjand"]),
        model: "SZT06 V2.0",
        vendor: "Tuya",
        description: "Smart mini temperature and humidity sensor",
        extend: [m.temperature(), m.humidity(), m.identify({isSleepy: true}), m.battery({voltage: true})],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_pl31aqf5", "_TZE200_xpvamyfz", "_TZE284_xpvamyfz"]),
        model: "ZR360CDB",
        vendor: "Zorro Alert",
        description: "Multifunctional CO2 detector",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        whiteLabel: [tuya.whitelabel("Nous", "E10", "Multifunctional CO2 detector", ["_TZE200_xpvamyfz", "_TZE284_xpvamyfz"])],
        exposes: [
            e.humidity(),
            e.temperature(),
            e.co2(),
            e.enum("alarm_ringtone", ea.STATE_SET, ["melody_1", "melody_2", "OFF"]).withDescription("Ringtone of the alarm"),
            e.numeric("backlight_mode", ea.STATE_SET).withValueMin(1).withValueMax(3).withValueStep(1).withDescription("Backlight"),
            tuya.exposes.batteryState(),
            e.enum("air_quality", ea.STATE_GET, ["excellent", "moderate", "poor"]),
        ],
        meta: {
            tuyaDatapoints: [
                [
                    1,
                    "air_quality",
                    tuya.valueConverterBasic.lookup({
                        excellent: tuya.enum(0),
                        moderate: tuya.enum(1),
                        poor: tuya.enum(2),
                    }),
                ],
                [2, "co2", tuya.valueConverter.raw],
                [
                    5,
                    "alarm_ringtone",
                    tuya.valueConverterBasic.lookup({
                        melody_1: tuya.enum(0),
                        melody_2: tuya.enum(1),
                        OFF: tuya.enum(2),
                    }),
                ],
                [14, "battery_state", tuya.valueConverter.batteryState],
                [17, "backlight_mode", tuya.valueConverter.raw],
                [18, "temperature", tuya.valueConverter.raw],
                [19, "humidity", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS110E", ["_TZ3210_guijtl8k", "_TZ3210_hquixjeg"]),
        model: "QS-Zigbee-D04",
        vendor: "LEDRON",
        description: "0-10v dimmer",
        fromZigbee: [fz.TS110E, fz.on_off],
        toZigbee: [tz.TS110E_onoff_brightness, tz.TS110E_options, tz.light_brightness_move],
        whiteLabel: [tuya.whitelabel("Ledron", "QS-Zigbee-D06-DC", "Dimmer 12-36v", ["_TZ3210_hquixjeg"])],
        exposes: [e.light_brightness().withMinBrightness().withMaxBrightness()],
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            const endpoint = device.getEndpoint(1);
            await reporting.bind(endpoint, coordinatorEndpoint, ["genOnOff", "genLevelCtrl"]);
            await reporting.onOff(endpoint);
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_edl8pz1k", "_TZE204_edl8pz1k", "_TZE204_6a4vxfnv"]),
        model: "TS0601_floor_thermostat",
        vendor: "Tuya",
        description: "Zigbee thermostat for electric floors",
        extend: [tuya.modernExtend.tuyaBase({dp: true, timeStart: "2000"})],
        exposes: [
            e
                .climate()
                .withSystemMode(["off", "heat"], ea.STATE_SET)
                .withPreset(["manual", "auto"])
                .withRunningState(["idle", "heat"], ea.STATE)
                .withSetpoint("current_heating_setpoint", 5, 35, 0.5, ea.STATE_SET)
                .withLocalTemperature(ea.STATE)
                .withDescription("Floor temperature")
                .withLocalTemperatureCalibration(-9, 9, 0.1, ea.STATE_SET)
                .withDescription("Calibration floor temperature sensor"),
            e.deadzone_temperature().withValueMin(0).withValueMax(5).withValueStep(1).withDescription("Floor temperature"),
            e.child_lock(),
            ...tuya.exposes.scheduleAllDays(ea.STATE_SET, "HH:MM/C HH:MM/C HH:MM/C HH:MM/C"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "system_mode", tuya.valueConverterBasic.lookup({heat: true, off: false})],
                [2, "preset", tuya.valueConverter.tv02Preset()],
                [16, "current_heating_setpoint", tuya.valueConverter.divideBy10],
                [24, "device_temperature", tuya.valueConverter.divideBy10],
                [27, "local_temperature_calibration", tuya.valueConverter.localTempCalibration2],
                [
                    36,
                    "running_state",
                    tuya.valueConverterBasic.lookup({
                        heat: tuya.enum(0),
                        idle: tuya.enum(1),
                    }),
                ],
                [40, "child_lock", tuya.valueConverter.lockUnlock],
                [102, "local_temperature", tuya.valueConverter.divideBy10],
                [103, "deadzone_temperature", tuya.valueConverter.raw],
                [110, "schedule_monday", tuya.valueConverter.thermostatScheduleDayMultiDP],
                [109, "schedule_tuesday", tuya.valueConverter.thermostatScheduleDayMultiDP],
                [108, "schedule_wednesday", tuya.valueConverter.thermostatScheduleDayMultiDP],
                [107, "schedule_thursday", tuya.valueConverter.thermostatScheduleDayMultiDP],
                [106, "schedule_friday", tuya.valueConverter.thermostatScheduleDayMultiDP],
                [105, "schedule_saturday", tuya.valueConverter.thermostatScheduleDayMultiDP],
                [101, "schedule_sunday", tuya.valueConverter.thermostatScheduleDayMultiDP],
            ],
        },
        whiteLabel: [{vendor: "ELECTSMART", model: "EST-120Z"}],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE284_khah2lkr"]),
        model: "TE-1Z",
        vendor: "Tuya",
        description: "Floor heating thermostat",
        extend: [tuya.modernExtend.tuyaBase({dp: true, timeStart: "2000"})],
        exposes: [
            // e.binary('system_mode', ea.STATE_SET, 'ON', 'OFF')
            // .withDescription('Turn system on or standby mode'),
            e
                .binary("state", ea.STATE_SET, "ON", "OFF")
                .withDescription("Turn system on or standby mode"),
            e
                .climate()
                .withSetpoint("current_heating_setpoint", 5, 35, 0.5, ea.STATE_SET)
                .withRunningState(["idle", "heat"], ea.STATE)

                // you can change preset, but can't make auto back remotely so I would set this readonly
                .withPreset(["auto", "manual", "mixed"])
                .withLocalTemperatureCalibration(-9, 9, 1, ea.STATE_SET)
                .withLocalTemperature(ea.STATE),
            e.child_lock(),
            // you can change it to IN remotely but can not set it back, so I set it read only
            e
                .enum("sensor_mode", ea.STATE, ["IN", "OU", "AL"])
                .withDescription(
                    "IN - internal sensor, no heat protection. OU - external sensor, no heat protection. AL - internal sensor for room temperature, external for heat protection",
                ),
            e
                .binary("high_temperature_protection_state", ea.STATE_SET, "ON", "OFF")
                .withDescription(
                    "If temperature hit the HIGH temperature limit, it " +
                        "will turn off heating until it drops for amount of deadzone/hysteresis " +
                        "degrees",
                ),
            e.binary("low_temperature_protection_state", ea.STATE_SET, "ON", "OFF"),
            e
                .numeric("high_temperature_protection_setting", ea.STATE_SET)
                .withUnit("°C")
                .withValueMin(20)
                .withValueMax(70)
                .withDescription("Alarm temperature max")
                .withPreset("default", 45, "Default value"),
            e
                .numeric("low_temperature_protection_setting", ea.STATE_SET)
                .withUnit("°C")
                .withValueMin(1)
                .withValueMax(10)
                .withDescription("Alarm temperature min")
                .withPreset("default", 5, "Default value"),
            e.numeric("temperature_sensor", ea.STATE).withUnit("°C").withDescription("Floor temperature from external sensor"),
            e
                .deadzone_temperature()
                .withValueMin(1)
                .withValueMax(9)
                .withValueStep(1)
                .withUnit("°C")
                .withDescription("Hysteresis")
                .withPreset("default", 1, "Default value"),
            e.max_temperature().withValueMin(20).withValueMax(70).withPreset("default", 35, "Default value"),
            // @todo not tested
            tuya.exposes.errorStatus(),
        ],
        meta: {
            tuyaDatapoints: [
                // internal sensor temperature
                [16, "local_temperature", tuya.valueConverter.divideBy10],
                [50, "current_heating_setpoint", tuya.valueConverter.divideBy10],
                // data type 1
                [102, "running_state", tuya.valueConverterBasic.lookup({idle: false, heat: true})],
                [103, "temperature_sensor", tuya.valueConverter.divideBy10],
                // can be changed by setting 112 below 20, data type 1
                [106, "high_temperature_protection_state", tuya.valueConverter.onOff],
                // can be changed by setting 113 over 10, data type 1
                [107, "low_temperature_protection_state", tuya.valueConverter.onOff],
                // range -9 to +9, data type 2, affects shown room temperature (even tho sensors detect its 19, you can make it show 21 by setting this to 2)
                [109, "local_temperature_calibration", tuya.valueConverter.localTempCalibration3],
                // according to manual settable between 0.5 and 2.5 degree.
                // staring with 5 as 0.5 degree, and 25 as 2.5 degree (data type 2)
                [110, "temperature_return_difference", tuya.valueConverter.raw],
                // range 1-9. How far should temperature drop to turn back heating, if high temp protection kicked in
                [111, "deadzone_temperature", tuya.valueConverter.raw],
                // High temperature protection
                // range 20-70, trying to turn below 20 keeps this datapoint at 20 but turns 106 to 0
                [112, "high_temperature_protection_setting", tuya.valueConverter.raw],
                // range 1-10, trying to turn over 10 keeps this datapoint at 10, but turns 107 to 0
                [113, "low_temperature_protection_setting", tuya.valueConverter.raw],
                [114, "max_temperature", tuya.valueConverter.raw],
                // choose_sensor
                // 0: device sensor. Switches "higsyht_temperature_protection_state" off
                // 1: external sensor / high temperature protection off
                // 2: internal for room + external for high temperature protection. Switches "hight_temperature_protection_state" on
                [116, "sensor_mode", tuya.valueConverterBasic.lookup({IN: 0, OU: 1, AL: 2})],
                // once every 24h it provides an array of numbers, maybe device fingerprint or something
                // [119, 'unknown_119', tuya.valueConverter.raw],
                // [120, 'unknown_120', tuya.valueConverter.raw],
                // [121, 'unknown_121', tuya.valueConverter.raw],
                // [122, 'unknown_122', tuya.valueConverter.raw],
                // device state
                // 0: standby mode - displays temperature but will not turn heating. Manual configuration is accessible only in this state
                // 1: fully functional, can turn on heating
                [125, "system_mode", tuya.valueConverter.onOff],
                [125, "state", tuya.valueConverter.onOff],
                // manual_mode
                // 1: automatically turns heating when protection levels hit
                // 2: you can turn off heating if it heats. You can set up target temperature
                // 3: you can set up target temperature and it will automatically try to maintain it
                [128, "preset", tuya.valueConverterBasic.lookup({auto: 1, manual: 0, mixed: 3})],
                [129, "child_lock", tuya.valueConverter.lockUnlock],
                // data type 5. Was [0] but went [16] when high temperature protection went into alert mode
                [130, "error_status", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_tagezcph"]),
        model: "PRO-900Z",
        vendor: "ElectSmart",
        description: "Thermostat for electric floor",
        extend: [tuya.modernExtend.tuyaBase({dp: true, timeStart: "2000"})],
        exposes: [
            e.binary("child_lock", ea.STATE_SET, "ON", "OFF").withLabel("Child lock"),
            e.binary("eco_mode", ea.STATE_SET, "OFF", "ON").withLabel("ECO mode").withDescription("Default: Off"),
            e
                .numeric("eco_temperature", ea.STATE_SET)
                .withValueMin(5)
                .withValueMax(30)
                .withValueStep(1)
                .withUnit("°C")
                .withDescription("Max temperature in ECO mode. Default: 20"),
            e
                .climate()
                .withSystemMode(["off", "heat"], ea.STATE_SET)
                .withPreset(["manual", "auto"])
                .withSetpoint("current_heating_setpoint", 5, 35, 0.5, ea.STATE_SET)
                .withLocalTemperature(ea.STATE)
                .withLocalTemperatureCalibration(-9, 9, 1, ea.STATE_SET)
                .withDescription("Default: -3")
                .withRunningState(["idle", "heat"], ea.STATE),
            e
                .numeric("deadzone_temperature", ea.STATE_SET)
                .withValueMin(1)
                .withValueMax(5)
                .withValueStep(1)
                .withUnit("°C")
                .withDescription("Hysteresis. Default: 1"),
            e.numeric("min_temperature", ea.STATE_SET).withValueMin(5).withValueMax(15).withValueStep(1).withUnit("°C").withDescription("Default: 5"),
            e
                .numeric("max_temperature", ea.STATE_SET)
                .withValueMin(15)
                .withValueMax(45)
                .withValueStep(1)
                .withUnit("°C")
                .withDescription("Default: 35"),
            e
                .numeric("min_temperature_limit", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(10)
                .withValueStep(1)
                .withUnit("°C")
                .withLabel("Low temperature protection")
                .withDescription("Default: 0"),
            e
                .numeric("max_temperature_limit", ea.STATE_SET)
                .withValueMin(25)
                .withValueMax(70)
                .withValueStep(1)
                .withUnit("°C")
                .withLabel("High temperature protection")
                .withDescription("Default: 45"),
            e.temperature_sensor_select(["IN", "OU", "AL"]).withLabel("Sensor").withDescription("Choose which sensor to use. Default: AL"),
            e
                .numeric("external_temperature_input", ea.STATE)
                .withLabel("Floor temperature")
                .withUnit("°C")
                .withDescription("Temperature from floor sensor"),
            e
                .numeric("brightness", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(8)
                .withValueStep(1)
                .withLabel("Screen brightness 06:00 - 22:00")
                .withDescription("0 - on for 10 seconds. Default: 6"),
            e
                .numeric("display_brightness", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(8)
                .withValueStep(1)
                .withLabel("Screen brightness 22:00 - 06:00")
                .withDescription("0 - on for 10 seconds. Default: 3"),
            e
                .text("schedule_monday", ea.STATE_SET)
                .withLabel("Schedule for monday")
                .withDescription("Default: 06:00/20.0 11:30/20.0 13:30/20.0 17:30/20.0"),
            e
                .text("schedule_tuesday", ea.STATE_SET)
                .withLabel("Schedule for tuesday")
                .withDescription("Default: 06:00/20.0 11:30/20.0 13:30/20.0 17:30/20.0"),
            e
                .text("schedule_wednesday", ea.STATE_SET)
                .withLabel("Schedule for wednesday")
                .withDescription("Default: 06:00/20.0 11:30/20.0 13:30/20.0 17:30/20.0"),
            e
                .text("schedule_thursday", ea.STATE_SET)
                .withLabel("Schedule for thursday")
                .withDescription("Default: 06:00/20.0 11:30/20.0 13:30/20.0 17:30/20.0"),
            e
                .text("schedule_friday", ea.STATE_SET)
                .withLabel("Schedule for friday")
                .withDescription("Default: 06:00/20.0 11:30/20.0 13:30/20.0 17:30/20.0"),
            e
                .text("schedule_saturday", ea.STATE_SET)
                .withLabel("Schedule for saturday")
                .withDescription("Default: 06:00/20.0 11:30/20.0 13:30/20.0 17:30/20.0"),
            e
                .text("schedule_sunday", ea.STATE_SET)
                .withLabel("Schedule for sunday")
                .withDescription("Default: 06:00/20.0 11:30/20.0 13:30/20.0 17:30/20.0"),
            e.enum("factory_reset", ea.STATE_SET, ["factory reset"]).withLabel("Factory reset").withDescription("Reset all settings to factory ones"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "system_mode", tuya.valueConverterBasic.lookup({off: false, heat: true})],
                [
                    2,
                    "preset",
                    tuya.valueConverterBasic.lookup({
                        auto: tuya.enum(0),
                        manual: tuya.enum(1),
                    }),
                ],
                [16, "current_heating_setpoint", tuya.valueConverter.divideBy10],
                [19, "max_temperature", tuya.valueConverter.divideBy10],
                [24, "local_temperature", tuya.valueConverter.divideBy10],
                [26, "min_temperature", tuya.valueConverter.divideBy10],
                [27, "local_temperature_calibration", tuya.valueConverter.raw],
                [28, "factory_reset", tuya.valueConverterBasic.lookup({factory_reset: true})],
                [
                    36,
                    "running_state",
                    tuya.valueConverterBasic.lookup({
                        idle: tuya.enum(1),
                        heat: tuya.enum(0),
                    }),
                ],
                [39, "child_lock", tuya.valueConverterBasic.lookup({ON: true, OFF: false})],
                [40, "eco_mode", tuya.valueConverterBasic.lookup({ON: true, OFF: false})],
                [
                    43,
                    "sensor",
                    tuya.valueConverterBasic.lookup({
                        IN: tuya.enum(0),
                        OU: tuya.enum(2),
                        AL: tuya.enum(1),
                    }),
                ],
                [102, "external_temperature_input", tuya.valueConverter.divideBy10],
                [103, "deadzone_temperature", tuya.valueConverter.raw],
                [104, "max_temperature_limit", tuya.valueConverter.divideBy10],
                [101, "schedule_monday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(1)],
                [105, "schedule_tuesday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(2)],
                [106, "schedule_wednesday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(3)],
                [107, "schedule_thursday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(4)],
                [108, "schedule_friday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(5)],
                [109, "schedule_saturday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(6)],
                [110, "schedule_sunday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(7)],
                [111, "min_temperature_limit", tuya.valueConverter.divideBy10],
                [112, "eco_temperature", tuya.valueConverter.divideBy10],
                [113, "brightness", tuya.valueConverter.raw],
                [114, "display_brightness", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_dsagrkvg", "_TZE284_zm8zpwas"]),
        model: "ZPV-01",
        vendor: "Novato",
        description: "Battery powered smart valve",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.switch().setAccess("state", ea.STATE_SET),
            e.enum("valve_state", ea.STATE, ["Closed", "Unknown", "Open"]).withDescription("Valve Status"),
            e.battery(),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "state", tuya.valueConverter.onOff],
                [
                    8,
                    "valve_state",
                    tuya.valueConverterBasic.lookup({
                        unknown: tuya.enum(0),
                        open: tuya.enum(1),
                        closed: tuya.enum(2),
                    }),
                ],
                [101, "battery", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS000F", ["_TZ3218_7fiyo3kv"]),
        model: "TYZGTH1CH-D1RF",
        vendor: "Mumubiz",
        description: "Smart switch with temperature/humidity sensor",
        meta: {
            tuyaSendCommand: "sendData",
        },
        extend: [
            tuya.modernExtend.tuyaMagicPacket(),
            tuya.modernExtend.tuyaOnOff({
                powerOutageMemory: true,
                switchType: false,
            }),
            tuya.modernExtend.dpChildLock({dp: 0x6f}),
            tuya.modernExtend.dpTemperature({dp: 0x66}),
            tuya.modernExtend.dpHumidity({dp: 0x67}),
            tuya.modernExtend.dpNumeric({
                dp: 0x6c,
                name: "temperature_calibration",
                type: tuya.dataTypes.number,
                valueMin: -10,
                valueMax: 10,
                valueStep: 0.1,
                unit: "°C",
                scale: 10,
                description: "Temperature calibration",
            }),
            tuya.modernExtend.dpNumeric({
                dp: 0x6d,
                name: "humidity_calibration",
                type: tuya.dataTypes.number,
                valueMin: -10,
                valueMax: 10,
                unit: "%",
                description: "Humidity calibration",
            }),
            tuya.modernExtend.dpNumeric({
                dp: 0x71,
                name: "temperature_sensitivity",
                type: tuya.dataTypes.number,
                valueMin: 0.1,
                valueMax: 1,
                valueStep: 0.1,
                unit: "°C",
                scale: 10,
                description: "Temperature sensitivity",
            }),
            tuya.modernExtend.dpNumeric({
                dp: 0x70,
                name: "humidity_sensitivity",
                type: tuya.dataTypes.number,
                valueMin: 1,
                valueMax: 10,
                unit: "%",
                description: "Humidity sensitivity",
            }),
            tuya.modernExtend.dpBinary({
                name: "manual_mode",
                dp: 0x65,
                type: tuya.dataTypes.enum,
                valueOn: ["ON", 1],
                valueOff: ["OFF", 0],
                description: "Manual mode, ON = auto settings disabled, OFF = auto settings enabled",
            }),
            tuya.modernExtend.dpTHZBSettings(),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS000F", ["_TZ3218_ya5d6wth"]),
        model: "TYZGTH4CH-D1RF",
        vendor: "Mumubiz",
        description: "4 channel changeover contact with temperature and humidity sensing",
        extend: [
            tuya.modernExtend.tuyaOnOff({
                powerOnBehavior2: true,
                onOffCountdown: true,
                endpoints: ["l1", "l2", "l3", "l4"],
            }),
            tuya.modernExtend.dpTemperature({dp: 102, scale: 10}),
            tuya.modernExtend.dpHumidity({dp: 103}),
        ],
        endpoint: (device) => {
            return {l1: 1, l2: 2, l3: 3, l4: 4};
        },
        exposes: [],
        meta: {multiEndpoint: true},
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            for (const ep of [1, 2, 3, 4]) {
                await reporting.bind(device.getEndpoint(ep), coordinatorEndpoint, ["genOnOff"]);
            }
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_uxllnywp"]),
        model: "RT_ZCZ03Z",
        vendor: "Tuya",
        description: "Human presence sensor 24G",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.illuminance(),
            e.presence(),
            e
                .numeric("detection_distance_max", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(840)
                .withValueStep(1)
                .withDescription("Max detection distance")
                .withUnit("cm"),
            e
                .numeric("detection_distance_min", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(840)
                .withValueStep(1)
                .withDescription("Min detection distance")
                .withUnit("cm"),
            e.numeric("target_distance", ea.STATE).withDescription("Distance to target").withUnit("cm"),
            e.numeric("fading_time", ea.STATE_SET).withValueMin(1).withValueMax(59).withValueStep(1).withDescription("Delay time").withUnit("s"),
            e.numeric("presence_sensitivity", ea.STATE_SET).withValueMin(1).withValueMax(10).withValueStep(1).withDescription("Presence sensitivity"),
            e.binary("indicator", ea.STATE_SET, "ON", "OFF").withDescription("LED Indicator"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "presence", tuya.valueConverterBasic.trueFalse(4)],
                [101, "target_distance", tuya.valueConverter.raw],
                [102, "illuminance", tuya.valueConverter.raw],
                [103, "fading_time", tuya.valueConverter.raw],
                [104, "indicator", tuya.valueConverter.onOff],
                [107, "detection_distance_max", tuya.valueConverter.raw],
                [108, "detection_distance_min", tuya.valueConverter.raw],
                [111, "presence_sensitivity", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", [
            "_TZE204_q22avxbv",
            "_TZE204_mrffaamu",
            "_TZE204_tzreobvu",
            "_TZE284_mrffaamu",
            "_TZE284_tzreobvu",
            "_TZE284_9xstqowh",
        ]),
        model: "TOQCB2-80",
        vendor: "Tongou",
        description: "Smart circuit breaker",
        // Important: respondToMcuVersionResponse should be false otherwise there is an avalanche of commandMcuVersionResponse messages every second.
        // queryIntervalSeconds: is doing a pooling to update the device's parameters, now defined to update data every 3 minutes.
        extend: [tuya.modernExtend.tuyaBase({dp: true, queryIntervalSeconds: 3 * 60})],
        exposes: [
            tuya.exposes.switch(),
            e.energy(),
            e.power(),
            e.voltage(),
            e.current(),
            e.temperature(),
            tuya.exposes.voltageWithPhase("a"),
            tuya.exposes.voltageWithPhase("b"),
            tuya.exposes.voltageWithPhase("c"),
            tuya.exposes.powerWithPhase("a"),
            tuya.exposes.powerWithPhase("b"),
            tuya.exposes.powerWithPhase("c"),
            tuya.exposes.currentWithPhase("a"),
            tuya.exposes.currentWithPhase("b"),
            tuya.exposes.currentWithPhase("c"),
            e
                .enum("last_event", ea.STATE, [
                    "normal",
                    "trip_over_current",
                    "trip_over_power",
                    "trip_over_temperature",
                    "trip_voltage_1",
                    "trip_voltage_2",
                    "alarm_over_current",
                    "alarm_over_power",
                    "alarm_over_temperature",
                    "alarm_voltage_1",
                    "alarm_voltage_2",
                    "remote_on",
                    "remote_off",
                    "manual_on",
                    "manual_off",
                    "value_15",
                    "value_16",
                    "factory_reset",
                ])
                .withDescription("Last event"),
            e.enum("over_current_setting", ea.STATE_SET, ["closed", "alarm", "trip"]).withDescription("Action if threshold value is reached"),
            e
                .numeric("current_threshold", ea.STATE_SET)
                .withValueMin(1)
                .withValueMax(63)
                .withValueStep(1)
                .withUnit("A")
                .withDescription("Current threshold setting"),
            e.enum("under_voltage_setting", ea.STATE_SET, ["closed", "alarm", "trip"]).withDescription("Action if threshold value is reached"),
            e
                .numeric("under_voltage_threshold", ea.STATE_SET)
                .withValueMin(145)
                .withValueMax(220)
                .withValueStep(1)
                .withUnit("V")
                .withDescription("Under voltage threshold setting"),
            e.enum("over_voltage_setting", ea.STATE_SET, ["closed", "alarm", "trip"]).withDescription("Action if threshold value is reached"),
            e
                .numeric("over_voltage_threshold", ea.STATE_SET)
                .withValueMin(245)
                .withValueMax(295)
                .withValueStep(1)
                .withUnit("V")
                .withDescription("Over-voltage threshold setting"),
            e.enum("over_power_setting", ea.STATE_SET, ["closed", "alarm", "trip"]).withDescription("Action if threshold value is reached"),
            e
                .numeric("over_power_threshold", ea.STATE_SET)
                .withValueMin(200)
                .withValueMax(20000)
                .withValueStep(100)
                .withUnit("W")
                .withDescription("Over-power threshold setting"),
            e.enum("temperature_setting", ea.STATE_SET, ["closed", "alarm", "trip"]).withDescription("Action if threshold value is reached"),
            e
                .numeric("temperature_threshold", ea.STATE_SET)
                .withValueMin(-40)
                .withValueMax(100)
                .withValueStep(1)
                .withUnit("°C")
                .withDescription("Temperature threshold setting"),
            e.binary("clear_fault", ea.STATE_SET, "ON", "OFF").withDescription("Recover from an incident"),
            e.binary("factory_reset", ea.STATE_SET, "ON", "OFF").withDescription("Back to factory settings, USE WITH CAUTION"),
            e
                .binary("auto_reclosing", ea.STATE_SET, "ON", "OFF")
                .withLabel("Auto-Reclosing")
                .withDescription(
                    "When the circuit breaker trips due to voltage protection, it will automatically close when the circuit voItage returns to normal.(Note: For safety reasons, this function only applies to trips caused by voltage)",
                ),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "energy", tuya.valueConverter.divideBy100],
                //[6, null, tuya.valueConverter.phaseVariant2],
                [3, null, null], // Monthly, but sends data only after request
                [4, null, null], // Dayly, but sends data only after request
                [6, null, tuya.valueConverter.phaseVariant2WithPhase("a")],
                [7, null, tuya.valueConverter.phaseVariant2WithPhase("b")],
                [8, null, tuya.valueConverter.phaseVariant2WithPhase("c")],
                [16, "state", tuya.valueConverter.onOff],
                [
                    102,
                    "over_voltage_setting",
                    tuya.valueConverterBasic.lookup({
                        closed: tuya.enum(0),
                        alarm: tuya.enum(1),
                        trip: tuya.enum(2),
                    }),
                ],
                [
                    103,
                    "under_voltage_setting",
                    tuya.valueConverterBasic.lookup({
                        closed: tuya.enum(0),
                        alarm: tuya.enum(1),
                        trip: tuya.enum(2),
                    }),
                ],
                [
                    104,
                    "over_current_setting",
                    tuya.valueConverterBasic.lookup({
                        closed: tuya.enum(0),
                        alarm: tuya.enum(1),
                        trip: tuya.enum(2),
                    }),
                ],
                [
                    105,
                    "over_power_setting",
                    tuya.valueConverterBasic.lookup({
                        closed: tuya.enum(0),
                        alarm: tuya.enum(1),
                        trip: tuya.enum(2),
                    }),
                ],
                [
                    107,
                    "temperature_setting",
                    tuya.valueConverterBasic.lookup({
                        closed: tuya.enum(0),
                        alarm: tuya.enum(1),
                        trip: tuya.enum(2),
                    }),
                ],
                //109, 'online_state, unknown, I have not seen any message from this DP],
                [
                    110,
                    "last_event",
                    tuya.valueConverterBasic.lookup({
                        normal: tuya.enum(0),
                        trip_over_current: tuya.enum(1),
                        trip_over_power: tuya.enum(2),
                        trip_over_temperature: tuya.enum(3),
                        trip_voltage_1: tuya.enum(4),
                        trip_voltage_2: tuya.enum(5),
                        alarm_over_current: tuya.enum(6),
                        alarm_over_power: tuya.enum(7),
                        alarm_over_temperature: tuya.enum(8),
                        alarm_voltage_1: tuya.enum(9),
                        alarm_voltage_2: tuya.enum(10),
                        remote_on: tuya.enum(11),
                        remote_off: tuya.enum(12),
                        manual_on: tuya.enum(13),
                        manual_off: tuya.enum(14),
                        value_15: tuya.enum(15),
                        value_16: tuya.enum(16),
                        factory_reset: tuya.enum(17),
                    }),
                ],
                [112, "clear_fault", tuya.valueConverter.onOff],
                [113, "factory_reset", tuya.valueConverter.onOff],
                [114, "current_threshold", tuya.valueConverter.raw],
                [115, "over_voltage_threshold", tuya.valueConverter.raw],
                [116, "under_voltage_threshold", tuya.valueConverter.raw],
                [118, "temperature_threshold", tuya.valueConverter.divideBy10],
                [119, "over_power_threshold", tuya.valueConverter.raw],
                //[125, 'forward_electricity', tuya.valueConverter.divideBy100],
                [131, "temperature", tuya.valueConverter.divideBy10],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_nbkshs6k"]),
        model: "ZY-M100-S_3",
        vendor: "Tuya",
        description: "Human presence detector",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.presence(),
            e.illuminance(),
            e
                .enum("sensitivity", ea.STATE_SET, ["low", "medium", "high"])
                .withDescription("PIR sensor sensitivity (refresh and update only while active)"),
            e.enum("keep_time", ea.STATE_SET, ["30", "60", "120"]).withDescription("PIR keep time in seconds (refresh and update only while active)"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "presence", tuya.valueConverterBasic.lookup({True: 0, False: 1})],
                [
                    9,
                    "sensitivity",
                    tuya.valueConverterBasic.lookup({
                        low: tuya.enum(0),
                        medium: tuya.enum(1),
                        high: tuya.enum(2),
                    }),
                ],
                [
                    10,
                    "keep_time",
                    tuya.valueConverterBasic.lookup({
                        "30": tuya.enum(0),
                        "60": tuya.enum(1),
                        "120": tuya.enum(2),
                    }),
                ],
                [12, "illuminance", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_dapwryy7"]),
        model: "ZG-205Z",
        vendor: "Tuya",
        description: "5.8 GHz human presence sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.presence(),
            e
                .enum("presence_state", ea.STATE, ["none", "presence", "peaceful", "small_movement", "large_movement"])
                .withDescription("The presence state"),
            e
                .numeric("target_distance", ea.STATE)
                .withValueMin(0)
                .withValueMax(10)
                .withValueStep(0.01)
                .withUnit("m")
                .withDescription("Target distance"),
            e.illuminance(),
            e.binary("indicator", ea.STATE_SET, "ON", "OFF").withDescription("LED Indicator"),
            e
                .numeric("none_delay_time", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(28800)
                .withValueStep(1)
                .withUnit("Sec")
                .withDescription("Hold delay time"),
            e
                .numeric("move_detection_max", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(10)
                .withValueStep(0.01)
                .withUnit("m")
                .withDescription("Move detection max distance"),
            e
                .numeric("move_detection_min", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(10)
                .withValueStep(0.01)
                .withUnit("m")
                .withDescription("Move detection min distance"),
            e
                .numeric("small_move_detection_max", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(6)
                .withValueStep(0.01)
                .withUnit("m")
                .withDescription("Small move detection max distance"),
            e
                .numeric("small_move_detection_min", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(6)
                .withValueStep(0.01)
                .withUnit("m")
                .withDescription("Small move detection min distance"),
            e
                .numeric("breath_detection_max", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(6)
                .withValueStep(0.01)
                .withUnit("m")
                .withDescription("Breath detection max distance"),
            e
                .numeric("breath_detection_min", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(6)
                .withValueStep(0.01)
                .withUnit("m")
                .withDescription("Breath detection min distance"),
            e.numeric("move_sensitivity", ea.STATE_SET).withValueMin(0).withValueMax(10).withValueStep(1).withDescription("Move sensitivity"),
            e.numeric("breath_sensitivity", ea.STATE_SET).withValueMin(0).withValueMax(10).withValueStep(1).withDescription("Breath sensitivity"),
            e
                .numeric("small_move_sensitivity", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(10)
                .withValueStep(1)
                .withDescription("Small Move sensitivity"),
        ],
        meta: {
            tuyaDatapoints: [
                [
                    1,
                    null,
                    {
                        from: (v: number) => {
                            const lookup = {
                                none: tuya.enum(0),
                                presence: tuya.enum(1),
                                peaceful: tuya.enum(2),
                                small_movement: tuya.enum(3),
                                large_movement: tuya.enum(4),
                            };
                            const presenceState = Object.entries(lookup).find((i) => i[1].valueOf() === v)[0];
                            return {
                                presence: presenceState !== "none",
                                presence_state: presenceState,
                            };
                        },
                    },
                ],
                [101, "target_distance", tuya.valueConverter.divideBy100],
                [102, "illuminance", tuya.valueConverter.raw],
                [103, "none_delay_time", tuya.valueConverter.raw],
                [104, "indicator", tuya.valueConverter.onOff],
                [107, "move_detection_max", tuya.valueConverter.divideBy100],
                [108, "move_detection_min", tuya.valueConverter.divideBy100],
                [109, "breath_detection_max", tuya.valueConverter.divideBy100],
                [110, "breath_detection_min", tuya.valueConverter.divideBy100],
                [114, "small_move_detection_max", tuya.valueConverter.divideBy100],
                [115, "small_move_detection_min", tuya.valueConverter.divideBy100],
                [116, "move_sensitivity", tuya.valueConverter.raw],
                [117, "small_move_sensitivity", tuya.valueConverter.raw],
                [118, "breath_sensitivity", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_ncti2pro", "_TZE204_l8xiyymq", "_TZE284_l8xiyymq", "_TZE284_zeldawjv"]),
        model: "PN6",
        vendor: "ZSVIOT",
        description: "6-way controller",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            tuya.exposes.switch(),
            tuya.exposes.switchMode2().withEndpoint("l1_l2").withLabel("1-2 channels"),
            tuya.exposes.switch().withEndpoint("l1"),
            tuya.exposes.switch().withEndpoint("l2"),
            tuya.exposes.switchMode2().withEndpoint("l3_l4").withLabel("3-4 channels"),
            tuya.exposes.switch().withEndpoint("l3"),
            tuya.exposes.switch().withEndpoint("l4"),
            tuya.exposes.switchMode2().withEndpoint("l5_l6").withLabel("5-6 channels"),
            tuya.exposes.switch().withEndpoint("l5"),
            tuya.exposes.switch().withEndpoint("l6"),
            tuya.exposes.switchType(),
            e.power_on_behavior(["off", "on"]).withAccess(ea.STATE_SET),
        ],
        endpoint: (device) => {
            return {
                l1: 1,
                l2: 1,
                l3: 1,
                l4: 1,
                l5: 1,
                l6: 1,
                state: 1,
                l1_l2: 1,
                l3_l4: 1,
                l5_l6: 1,
            };
        },
        meta: {
            multiEndpoint: true,
            tuyaDatapoints: [
                [1, "state_l1", tuya.valueConverter.onOff],
                [2, "state_l2", tuya.valueConverter.onOff],
                [3, "state_l3", tuya.valueConverter.onOff],
                [4, "state_l4", tuya.valueConverter.onOff],
                [5, "state_l5", tuya.valueConverter.onOff],
                [6, "state_l6", tuya.valueConverter.onOff],
                [13, "state", tuya.valueConverter.onOff],
                [14, "power_on_behavior", tuya.valueConverter.powerOnBehaviorEnum],
                [107, "switch_type", tuya.valueConverter.switchType],
                [113, "switch_mode_l1_l2", tuya.valueConverter.switchMode2],
                [114, "switch_mode_l3_l4", tuya.valueConverter.switchMode2],
                [115, "switch_mode_l5_l6", tuya.valueConverter.switchMode2],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_zqq3cipq", "_TZE284_zqq3cipq"]),
        model: "PN16",
        vendor: "ZSVIOT",
        description: "16-way controller",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.power_on_behavior(["off", "on", "previous"]).withAccess(ea.STATE_SET),
            tuya.exposes.switch().withEndpoint("all"),
            tuya.exposes.switchType().withEndpoint("l1_l8").withLabel("Switch type 1-8 channels"),
            tuya.exposes.switch().withEndpoint("l1"),
            tuya.exposes.switch().withEndpoint("l2"),
            tuya.exposes.switch().withEndpoint("l3"),
            tuya.exposes.switch().withEndpoint("l4"),
            tuya.exposes.switch().withEndpoint("l5"),
            tuya.exposes.switch().withEndpoint("l6"),
            tuya.exposes.switch().withEndpoint("l7"),
            tuya.exposes.switch().withEndpoint("l8"),
            tuya.exposes.switchType().withEndpoint("l9_l16").withLabel("Switch type 9-16 channels"),
            tuya.exposes.switch().withEndpoint("l9"),
            tuya.exposes.switch().withEndpoint("l10"),
            tuya.exposes.switchMode2().withEndpoint("l11_l12").withLabel("Mode 11-12 channels"),
            tuya.exposes.switch().withEndpoint("l11"),
            tuya.exposes.switch().withEndpoint("l12"),
            tuya.exposes.switchMode2().withEndpoint("l13_l14").withLabel("Mode 13-14 channels"),
            tuya.exposes.switch().withEndpoint("l13"),
            tuya.exposes.switch().withEndpoint("l14"),
            tuya.exposes.switchMode2().withEndpoint("l15_l16").withLabel("Mode 15-16 channels"),
            tuya.exposes.switch().withEndpoint("l15"),
            tuya.exposes.switch().withEndpoint("l16"),
        ],
        endpoint: (device) => {
            return {
                all: 1,
                l1: 1,
                l2: 1,
                l3: 1,
                l4: 1,
                l5: 1,
                l6: 1,
                l7: 1,
                l8: 1,
                l9: 1,
                l10: 1,
                l11: 1,
                l12: 1,
                l13: 1,
                l14: 1,
                l15: 1,
                l16: 1,
                l1_l8: 1,
                l9_l16: 1,
                l11_l12: 1,
                l13_l14: 1,
                l15_l16: 1,
            };
        },
        meta: {
            multiEndpoint: true,
            tuyaDatapoints: [
                [1, "state_all", tuya.valueConverter.onOff],
                [101, "state_l1", tuya.valueConverter.onOff],
                [102, "state_l2", tuya.valueConverter.onOff],
                [103, "state_l3", tuya.valueConverter.onOff],
                [104, "state_l4", tuya.valueConverter.onOff],
                [105, "state_l5", tuya.valueConverter.onOff],
                [106, "state_l6", tuya.valueConverter.onOff],
                [107, "state_l7", tuya.valueConverter.onOff],
                [108, "state_l8", tuya.valueConverter.onOff],
                [109, "state_l9", tuya.valueConverter.onOff],
                [110, "state_l10", tuya.valueConverter.onOff],
                [111, "state_l11", tuya.valueConverter.onOff],
                [112, "state_l12", tuya.valueConverter.onOff],
                [113, "state_l13", tuya.valueConverter.onOff],
                [114, "state_l14", tuya.valueConverter.onOff],
                [115, "state_l15", tuya.valueConverter.onOff],
                [116, "state_l16", tuya.valueConverter.onOff],
                [117, "power_on_behavior", tuya.valueConverter.powerOnBehaviorEnum],
                [118, "switch_type_l1_l8", tuya.valueConverter.switchType],
                [119, "switch_type_l9_l16", tuya.valueConverter.switchType],
                [120, "switch_mode_l11_l12", tuya.valueConverter.switchMode2],
                [121, "switch_mode_l13_l14", tuya.valueConverter.switchMode2],
                [122, "switch_mode_l15_l16", tuya.valueConverter.switchMode2],
            ],
        },
    },
    {
        zigbeeModel: ["TS0105"],
        model: "TS0105",
        vendor: "Tuya",
        description: "3 gang switch",
        extend: [tuyaBase({dp: true}), m.deviceEndpoints({endpoints: {l1: 1, l2: 1, l3: 1}})],
        exposes: [
            e.switch().withEndpoint("l1").setAccess("state", ea.STATE_SET),
            e.switch().withEndpoint("l2").setAccess("state", ea.STATE_SET),
            e.switch().withEndpoint("l3").setAccess("state", ea.STATE_SET),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "state_l1", tuya.valueConverter.onOff],
                [2, "state_l2", tuya.valueConverter.onOff],
                [3, "state_l3", tuya.valueConverter.onOff],
            ],
        },
    },
    {
        zigbeeModel: ["ZG-103Z"],
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_iba1ckek", "_TZE200_hggxgsjj", "_TZE200_yjryxpot", "_TZE200_afycb3cg"]),
        model: "ZG-103Z",
        vendor: "Tuya",
        description: "Vibration sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.vibration(),
            e.tilt(),
            e.numeric("x", ea.STATE).withValueMin(0).withValueMax(256).withValueStep(1).withDescription("X coordinate"),
            e.numeric("y", ea.STATE).withValueMin(0).withValueMax(256).withValueStep(1).withDescription("Y coordinate"),
            e.numeric("z", ea.STATE).withValueMin(0).withValueMax(256).withValueStep(1).withDescription("Z coordinate"),
            e.battery(),
            e.enum("sensitivity", ea.STATE_SET, ["low", "middle", "high"]).withDescription("Vibration detection sensitivity"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "vibration", tuya.valueConverter.trueFalseEnum1],
                [7, "tilt", tuya.valueConverter.trueFalseEnum1],
                [101, "x", tuya.valueConverter.raw],
                [102, "y", tuya.valueConverter.raw],
                [103, "z", tuya.valueConverter.raw],
                [
                    104,
                    "sensitivity",
                    tuya.valueConverterBasic.lookup({
                        low: tuya.enum(0),
                        middle: tuya.enum(1),
                        high: tuya.enum(2),
                    }),
                ],
                [105, "battery", tuya.valueConverter.raw],
            ],
        },
    },
    {
        zigbeeModel: ["ZG-302ZM"],
        fingerprint: tuya.fingerprint("TS0601", [
            "_TZE200_kccdzaeo",
            "_TZE200_s7rsrtbg",
            "_TZE200_tmszbtzq",
            "_TZE200_bfmfhxra",
            "_TZE200_ahpcyzth",
            "_TZE200_kijxnb8q",
        ]),
        model: "ZG-302ZM",
        vendor: "HOBEIAN",
        description: "Motion sensing switch",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.presence(),
            e.binary("switch1", ea.STATE_SET, "ON", "OFF").withDescription("Switch1"),
            e.binary("switch2", ea.STATE_SET, "ON", "OFF").withDescription("Switch2"),
            e.binary("switch3", ea.STATE_SET, "ON", "OFF").withDescription("Switch3"),
            e
                .numeric("distance", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(6)
                .withValueStep(0.1)
                .withUnit("m")
                .withDescription("detection distance"),
            e
                .numeric("sensitivity", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(19)
                .withValueStep(1)
                .withUnit("x")
                .withDescription("detection sensitivity"),
            e.binary("backlight", ea.STATE_SET, "ON", "OFF").withDescription("backlight"),
            e
                .numeric("trigger_hold", ea.STATE_SET)
                .withValueMin(5)
                .withValueMax(28800)
                .withValueStep(1)
                .withUnit("s")
                .withDescription("Trigger hold(second)"),
            tuya.exposes.powerOutageMemory(),
            e
                .enum("auto_on", ea.STATE_SET, ["off", "all", "ch1", "ch2", "ch3", "ch1_2", "ch2_3", "ch1_3"])
                .withDescription("Someone turn on the light"),
            e
                .enum("auto_off", ea.STATE_SET, ["off", "all", "ch1", "ch2", "ch3", "ch1_2", "ch2_3", "ch1_3"])
                .withDescription("No one turns off the lights"),
            e.enum("trigger_switch", ea.STATE_SET, ["ch1", "ch2", "ch3"]).withDescription("Switch state reversal"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "presence", tuya.valueConverter.trueFalse1],
                [2, "sensitivity", tuya.valueConverter.raw],
                [4, "distance", tuya.valueConverter.divideBy100],
                [101, "switch1", tuya.valueConverter.onOff],
                [102, "switch2", tuya.valueConverter.onOff],
                [103, "switch3", tuya.valueConverter.onOff],
                [111, "backlight", tuya.valueConverter.onOff],
                [114, "trigger_hold", tuya.valueConverter.raw],
                [
                    112,
                    "power_outage_memory",
                    tuya.valueConverterBasic.lookup({
                        off: tuya.enum(0),
                        on: tuya.enum(1),
                        restore: tuya.enum(2),
                    }),
                ],
                [
                    113,
                    "auto_on",
                    tuya.valueConverterBasic.lookup({
                        off: tuya.enum(0),
                        all: tuya.enum(1),
                        ch1: tuya.enum(1),
                        ch2: tuya.enum(2),
                        ch3: tuya.enum(3),
                        ch1_2: tuya.enum(4),
                        ch2_3: tuya.enum(5),
                        ch1_3: tuya.enum(6),
                    }),
                ],
                [
                    115,
                    "auto_off",
                    tuya.valueConverterBasic.lookup({
                        off: tuya.enum(0),
                        all: tuya.enum(1),
                        ch1: tuya.enum(1),
                        ch2: tuya.enum(2),
                        ch3: tuya.enum(3),
                        ch1_2: tuya.enum(4),
                        ch2_3: tuya.enum(5),
                        ch1_3: tuya.enum(6),
                    }),
                ],
                [
                    108,
                    "trigger_switch",
                    tuya.valueConverterBasic.lookup({
                        ch1: tuya.enum(0),
                        ch2: tuya.enum(1),
                        ch3: tuya.enum(2),
                    }),
                ],
            ],
        },
    },
    {
        zigbeeModel: ["ZG-302ZL"],
        fingerprint: tuya.fingerprint("TS0601", [
            "_TZE200_khzbklyh",
            "_TZE200_df04ghrb",
            "_TZE200_toeldckg",
            "_TZE200_cqtamhh5",
            "_TZE200_xlnzk169",
            "_TZE200_llvwkkde",
        ]),
        model: "ZG-302ZL",
        vendor: "HOBEIAN",
        description: "Motion sensing switch",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.presence(),
            e.binary("switch_1", ea.STATE_SET, "ON", "OFF").withDescription("Switch2"),
            e.binary("switch_2", ea.STATE_SET, "ON", "OFF").withDescription("Switch2"),
            e.binary("switch_3", ea.STATE_SET, "ON", "OFF").withDescription("Switch3"),
            e
                .numeric("sensitivity", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(19)
                .withValueStep(1)
                .withUnit("x")
                .withDescription("detection sensitivity"),
            e.binary("backlight", ea.STATE_SET, "ON", "OFF").withDescription("backlight"),
            e
                .numeric("trigger_hold", ea.STATE_SET)
                .withValueMin(5)
                .withValueMax(28800)
                .withValueStep(1)
                .withUnit("s")
                .withDescription("Trigger hold(second)"),
            tuya.exposes.powerOutageMemory(),
            e
                .enum("auto_on", ea.STATE_SET, ["off", "all", "ch1", "ch2", "ch3", "ch1_and_ch2", "ch2_and_ch3", "ch1_and_ch3"])
                .withDescription("When somebody passes in front of their sensors, the lights turn"),
            e
                .enum("auto_off", ea.STATE_SET, ["off", "all", "ch1", "ch2", "ch3", "ch1_and_ch2", "ch2_and_ch3", "ch1_and_ch3"])
                .withDescription("No one turns off the lights"),
        ],
        meta: {
            multiEndpoint: true,
            tuyaDatapoints: [
                [101, "presence", tuya.valueConverter.trueFalse1],
                [102, "sensitivity", tuya.valueConverter.raw],
                [1, "switch_1", tuya.valueConverter.onOff],
                [2, "switch_2", tuya.valueConverter.onOff],
                [3, "switch_3", tuya.valueConverter.onOff],
                [16, "backlight", tuya.valueConverter.onOff],
                [103, "trigger_hold", tuya.valueConverter.raw],
                [
                    14,
                    "power_outage_memory",
                    tuya.valueConverterBasic.lookup({
                        off: tuya.enum(0),
                        on: tuya.enum(1),
                        restore: tuya.enum(2),
                    }),
                ],
                [
                    104,
                    "auto_on",
                    tuya.valueConverterBasic.lookup({
                        off: tuya.enum(0),
                        all: tuya.enum(1),
                        ch1: tuya.enum(1),
                        ch2: tuya.enum(2),
                        ch3: tuya.enum(3),
                        ch1_and_ch2: tuya.enum(4),
                        ch2_and_ch3: tuya.enum(5),
                        ch1_and_ch3: tuya.enum(6),
                    }),
                ],
                [
                    105,
                    "auto_off",
                    tuya.valueConverterBasic.lookup({
                        off: tuya.enum(0),
                        all: tuya.enum(1),
                        ch1: tuya.enum(1),
                        ch2: tuya.enum(2),
                        ch3: tuya.enum(3),
                        ch1_and_ch2: tuya.enum(4),
                        ch2_and_ch3: tuya.enum(5),
                        ch1_and_ch3: tuya.enum(6),
                    }),
                ],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_wqashyqo"]),
        model: "ZG-303Z",
        vendor: "HOBEIAN",
        description: "Soil moisture sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.enum("water_warning", ea.STATE, ["none", "alarm"]).withDescription("Water shortage warning"),
            e.temperature(),
            e.humidity(),
            e.soil_moisture(),
            tuya.exposes.temperatureUnit(),
            tuya.exposes.temperatureCalibration(),
            tuya.exposes.humidityCalibration(),
            tuya.exposes.soilCalibration(),
            tuya.exposes.temperatureSampling(),
            tuya.exposes.soilSampling(),
            tuya.exposes.soilWarning(),
            e.battery(),
        ],
        meta: {
            tuyaDatapoints: [
                [
                    1,
                    "water_warning",
                    tuya.valueConverterBasic.lookup({
                        none: tuya.enum(0),
                        alarm: tuya.enum(1),
                    }),
                ],
                [103, "temperature", tuya.valueConverter.divideBy10],
                [109, "humidity", tuya.valueConverter.raw],
                [107, "soil_moisture", tuya.valueConverter.raw],
                [108, "battery", tuya.valueConverter.raw],
                [106, "temperature_unit", tuya.valueConverter.temperatureUnit],
                [104, "temperature_calibration", tuya.valueConverter.localTempCalibration3],
                [105, "humidity_calibration", tuya.valueConverter.localTempCalibration2],
                [102, "soil_calibration", tuya.valueConverter.localTempCalibration2],
                [111, "temperature_sampling", tuya.valueConverter.raw],
                [112, "soil_sampling", tuya.valueConverter.raw],
                [110, "soil_warning", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_fhvdgeuh", "_TZE200_abatw3kj", "_TZE204_4bjixefp"]),
        model: "TS0601_din_4",
        vendor: "Tuya",
        description: "Din rail switch with power monitoring and threshold settings",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        configure: async (device, coordinatorEndpoint) => {
            // Required to get the device to start reporting
            await device.getEndpoint(1).command("manuSpecificTuya", "dataQuery", {});
        },
        whiteLabel: [tuya.whitelabel("RTX", "TS0601_RTX_DIN", "Din rail switch", ["_TZE200_abatw3kj"])],
        exposes: [
            e.switch().setAccess("state", ea.STATE_SET),
            e.power(),
            e.current(),
            e.voltage(),
            e.energy(),
            e.numeric("temperature", ea.STATE).withUnit("°C").withDescription("Current temperature"),
            e.numeric("leakage", ea.STATE).withUnit("mA").withDescription("Current leakage"),
        ],
        meta: {
            tuyaDatapoints: [
                [16, "state", tuya.valueConverter.onOff],
                [1, "energy", tuya.valueConverter.divideBy100], // Total forward energy
                [6, null, tuya.valueConverter.phaseVariant2], // Phase A voltage and current
                // [9, 'fault', tuya.valueConverter.raw], // no expose
                // [11, 'switch_prepayment', tuya.valueConverter.raw], // no expose
                // [12, 'clear_energy', tuya.valueConverter.raw], // no expose
                // [14, 'charge_energy', tuya.valueConverter.raw], // no expose
                [15, "leakage", tuya.valueConverter.raw],
                // [102, 'reclosing_allowed_times', tuya.valueConverter.raw], // no expose
                [103, "temperature", tuya.valueConverter.raw],
                // [104, 'reclosing_enable', tuya.valueConverter.raw], // no expose
                // [105, 'timer', tuya.valueConverter.raw], // no expose
                // [106, 'cycle_schedule', tuya.valueConverter.raw], // no expose
                // [107, 'reclose_recover_seconds', tuya.valueConverter.raw], // no expose
                // [108, 'random_timing', tuya.valueConverter.raw], // no expose
                // [109, 'switch_inching', tuya.valueConverter.raw], // no expose
                // [119, 'power_on_delay_power_on_time', tuya.valueConverter.raw], // no expose
                // [124, 'overcurrent_event_threshold_time', tuya.valueConverter.raw], // no expose
                // [125, 'time_threshold_of_lost_flow_event', tuya.valueConverter.raw], // no expose
                // [127, 'status', tuya.valueConverter.raw], // no expose
                // [134, 'relay_status_for_power_on', tuya.valueConverter.raw], // no expose
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_hcxvyxa5"]),
        model: "ZA03",
        vendor: "Tuya",
        description: "Siren alarm",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.binary("alarm", ea.STATE_SET, "ON", "OFF").withDescription("Sound the alarm"),
            e.enum("volume", ea.STATE_SET, ["low", "medium", "high", "mute"]),
            e.enum("ringtone", ea.STATE_SET, [
                "ringtone 1",
                "ringtone 2",
                "ringtone 3",
                "ringtone 4",
                "ringtone 5",
                "ringtone 6",
                "ringtone 7",
                "ringtone 8",
                "ringtone 9",
                "ringtone 10",
                "ringtone 11",
                "ringtone 12",
                "ringtone 13",
                "ringtone 14",
                "ringtone 15",
                "ringtone 16",
                "ringtone 17",
                "ringtone 18",
                "ringtone 19",
                "ringtone 20",
                "ringtone 21",
                "ringtone 22",
                "ringtone 23",
                "ringtone 24",
                "ringtone 25",
                "ringtone 26",
                "ringtone 27",
                "ringtone 28",
                "ringtone 29",
                "ringtone 30",
                "ringtone 31",
                "ringtone 32",
            ]),
            e
                .numeric("duration", ea.STATE_SET)
                .withValueMin(1)
                .withValueMax(380)
                .withValueStep(1)
                .withUnit("s")
                .withDescription("How long the alarm sounds for when triggered"),
        ],
        meta: {
            tuyaDatapoints: [
                [
                    5,
                    "volume",
                    tuya.valueConverterBasic.lookup({
                        low: tuya.enum(0),
                        medium: tuya.enum(1),
                        high: tuya.enum(2),
                        mute: tuya.enum(3),
                    }),
                ],
                [7, "duration", tuya.valueConverter.raw],
                [13, "alarm", tuya.valueConverter.onOff],
                [
                    21,
                    "ringtone",
                    tuya.valueConverterBasic.lookup({
                        "ringtone 1": tuya.enum(0),
                        "ringtone 2": tuya.enum(1),
                        "ringtone 3": tuya.enum(2),
                        "ringtone 4": tuya.enum(3),
                        "ringtone 5": tuya.enum(4),
                        "ringtone 6": tuya.enum(5),
                        "ringtone 7": tuya.enum(6),
                        "ringtone 8": tuya.enum(7),
                        "ringtone 9": tuya.enum(8),
                        "ringtone 10": tuya.enum(9),
                        "ringtone 11": tuya.enum(10),
                        "ringtone 12": tuya.enum(11),
                        "ringtone 13": tuya.enum(12),
                        "ringtone 14": tuya.enum(13),
                        "ringtone 15": tuya.enum(14),
                        "ringtone 16": tuya.enum(15),
                        "ringtone 17": tuya.enum(16),
                        "ringtone 18": tuya.enum(17),
                        "ringtone 19": tuya.enum(18),
                        "ringtone 20": tuya.enum(19),
                        "ringtone 21": tuya.enum(20),
                        "ringtone 22": tuya.enum(21),
                        "ringtone 23": tuya.enum(22),
                        "ringtone 24": tuya.enum(23),
                        "ringtone 25": tuya.enum(24),
                        "ringtone 26": tuya.enum(25),
                        "ringtone 27": tuya.enum(26),
                        "ringtone 28": tuya.enum(27),
                        "ringtone 29": tuya.enum(28),
                        "ringtone 30": tuya.enum(29),
                        "ringtone 31": tuya.enum(30),
                        "ringtone 32": tuya.enum(31),
                    }),
                ],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_ex3rcdha", "_TZE204_lbbg34rj"]),
        model: "ZY_HPS01",
        vendor: "Tuya",
        description: "mmWave radar 5.8GHz",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        whiteLabel: [tuya.whitelabel("Nova Digital", "ZTS-MM", "mmWave radar 5.8GHz", ["_TZE204_lbbg34rj"])],
        exposes: [
            e.illuminance().withUnit("lx"),
            e.occupancy(),
            e
                .numeric("presence_timeout", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(180)
                .withValueStep(1)
                .withDescription("Presence timeout")
                .withUnit("s"),
            e
                .numeric("move_sensitivity", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(10)
                .withValueStep(1)
                .withDescription("sensitivity of the radar")
                .withUnit("X"),
            e
                .numeric("move_minimum_range", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(600)
                .withValueStep(10)
                .withDescription("Movement minimum range")
                .withUnit("cm"),
            e
                .numeric("move_maximum_range", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(600)
                .withValueStep(10)
                .withDescription("Movement maximum range")
                .withUnit("cm"),
            e
                .numeric("breath_sensitivity", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(10)
                .withValueStep(1)
                .withDescription("Breath sensitivity of the radar")
                .withUnit("X"),
            e
                .numeric("breath_minimum_range", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(600)
                .withValueStep(10)
                .withDescription("Breath minimum range")
                .withUnit("cm"),
            e
                .numeric("breath_maximum_range", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(600)
                .withValueStep(10)
                .withDescription("Breath maximum range")
                .withUnit("cm"),
        ],
        meta: {
            tuyaDatapoints: [
                [12, "illuminance", tuya.valueConverter.raw],
                [101, "occupancy", tuya.valueConverter.trueFalse0],
                [104, "presence_timeout", tuya.valueConverter.raw],
                [105, "move_sensitivity", tuya.valueConverter.raw],
                [107, "breath_sensitivity", tuya.valueConverter.raw],
                [109, "move_maximum_range", tuya.valueConverter.raw],
                [110, "move_minimum_range", tuya.valueConverter.raw],
                [111, "breath_maximum_range", tuya.valueConverter.raw],
                [112, "breath_minimum_range", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_ppuj1vem"]),
        model: "ZPIR-10",
        vendor: "Tuya",
        description: "Treatlife human presence sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [e.occupancy(), e.battery(), e.illuminance()],
        meta: {
            tuyaDatapoints: [
                [1, "occupancy", tuya.valueConverter.trueFalse0],
                [4, "battery", tuya.valueConverter.raw],
                [101, "illuminance", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_ha0vwoew"]),
        model: "TS0601_thermostat_thermosphere",
        vendor: "Tuya",
        description: "ThermoSphere thermostat",
        extend: [tuyaBase({dp: true, timeStart: "1970"})],
        exposes: [
            e
                .climate()
                .withSystemMode(["off", "auto"], ea.STATE_SET, "Whether the thermostat is turned on or off")
                .withSetpoint("current_heating_setpoint", 5, 35, 0.5, ea.STATE_SET)
                .withLocalTemperature(ea.STATE),
            e
                .enum("sensor_mode", ea.STATE_SET, ["room_temperature", "floor_temperature", "room_with_floor_limit"])
                .withDescription("What type of sensor are you using to measure the temperature of the floor?"),
            e
                .binary("adaptive_start", ea.STATE_SET, "ON", "OFF")
                .withDescription("Preheat the room to the desired temperature before the scheduled start time."),
            e.max_temperature_limit().withDescription("Maximum temperature (default: 35 ºC)").withValueMin(5).withValueMax(35).withValueStep(0.5),
            e
                .min_temperature_limit()
                .withDescription(
                    "Minimum temperature limit for frost protection. Turns the thermostat on regardless of setpoint if the temperature drops below this.",
                )
                .withValueMin(1)
                .withValueMax(5),
            e
                .enum("boost", ea.STATE_SET, ["ON", "OFF"])
                .withDescription("Override the schedule and boost at the current temperature until turned off"),
            e
                .numeric("display_brightness", ea.STATE_SET)
                .withDescription("Brightness of the display when in use")
                .withValueMin(0)
                .withValueMax(100)
                .withValueStep(1),
            e
                .numeric("holiday_start_stop", ea.STATE_SET)
                .withDescription("Set the number of days of holiday, this will start immediately.")
                .withValueMax(99)
                .withValueMin(0),
            e.holiday_temperature().withValueMin(5).withValueMax(35),
            e.binary("frost_protection", ea.STATE_SET, "ON", "OFF").withDescription("Turning on will keep heating at the minimum temperature limit"),
            e
                .numeric("switch_delay", ea.STATE_SET)
                .withDescription("How long to wait between making a change and it taking effect")
                .withValueMin(10)
                .withValueMax(90)
                .withValueStep(10)
                .withUnit("s"),
            e
                .numeric("power_rating", ea.STATE_SET)
                .withDescription(
                    "How much power is the underfloor heating rated to. Entering a value will allow the Thermostat to record a value of power usage that can be checked under settings on the physical Thermostat",
                )
                .withUnit("W")
                .withValueMin(0)
                .withValueMax(4500)
                .withValueStep(100),
            e
                .binary("open_window_active", ea.STATE_SET, "ON", "OFF")
                .withDescription("When active the heating will cut off if an Open Window is detected"),
            e
                .numeric("open_window_sensing_time", ea.STATE_SET)
                .withDescription("The duration that the drop in temperature needs to occur over")
                .withUnit("minutes")
                .withValueMin(1)
                .withValueMax(30)
                .withValueStep(1),
            e
                .numeric("open_window_drop_limit", ea.STATE_SET)
                .withDescription("The drop in ambient room temperature that will trigger an open window warning")
                .withUnit("C")
                .withValueMin(2)
                .withValueMax(4)
                .withValueStep(1),
            e
                .numeric("open_window_off_time", ea.STATE_SET)
                .withDescription("The length of time the drop in temperature must be consistent for to turn the heating off")
                .withUnit("minutes")
                .withValueMin(10)
                .withValueMax(60)
                .withValueStep(5),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "system_mode", tuya.valueConverterBasic.lookup({off: false, auto: true})],
                [2, "current_heating_setpoint", tuya.valueConverter.divideBy10],
                [
                    4,
                    "boost",
                    tuya.valueConverterBasic.lookup({
                        OFF: tuya.enum(1),
                        ON: tuya.enum(2),
                    }),
                ],
                [18, "open_window_active", tuya.valueConverterBasic.lookup({OFF: false, ON: true})],
                [40, "open_window_sensing_time", tuya.valueConverterBasic.divideBy(1)],
                [45, "open_window_drop_limit", tuya.valueConverter.divideBy10],
                [47, "open_window_off_time", tuya.valueConverterBasic.divideBy(1)],
                [37, "adaptive_start", tuya.valueConverterBasic.lookup({OFF: false, ON: true})],
                [38, "local_temperature", tuya.valueConverter.divideBy10],
                [39, "max_temperature_limit", tuya.valueConverter.divideBy10],
                [41, "holiday_start_stop", tuya.valueConverterBasic.divideBy(1)], //divideBy1 required to force the format. Raw does not work
                [42, "holiday_temperature", tuya.valueConverter.divideBy10],
                [
                    43,
                    "sensor_mode",
                    tuya.valueConverterBasic.lookup({
                        room_temperature: tuya.enum(0),
                        floor_temperature: tuya.enum(1),
                        room_with_floor_limit: tuya.enum(2),
                    }),
                ],
                //[48, 'temp_tolerance', tuya.valueConverter.raw],
                [50, "power_rating", tuya.valueConverterBasic.divideBy(1)],
                [52, "frost_protection", tuya.valueConverterBasic.lookup({OFF: false, ON: true})],
                [53, "min_temperature_limit", tuya.valueConverter.divideBy10],
                [54, "switch_delay", tuya.valueConverterBasic.divideBy(1)],
                [55, "display_brightness", tuya.valueConverterBasic.divideBy(1)], //divideBy1 required to force the format. Raw does not work
                //[16, 'schedule', tuya.valueConverter.Raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE284_madl8ejv"]),
        model: "SAS936RHB-7-Z03",
        vendor: "Saswell",
        description: "Wireless temperature sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e
                .climate()
                .withLocalTemperature(ea.STATE)
                .withSetpoint("current_heating_setpoint", 5, 30, 0.5, ea.STATE_SET)
                .withSystemMode(["off", "heat"], ea.STATE_SET),
            e.binary("heating_demand", ea.STATE, "ON", "OFF").withDescription("Valve demand (0=off, 1=heating)"),
            e
                .binary("temporary_leaving", ea.STATE_SET, "ON", "OFF")
                .withDescription("Temporary leaving mode (checkmark on display, disables heating)"),
            e.child_lock(),
        ],
        meta: {
            tuyaDatapoints: [
                [102, "local_temperature", tuya.valueConverter.divideBy10],
                [103, "current_heating_setpoint", tuya.valueConverter.divideBy10],
                [
                    101,
                    "system_mode",
                    {
                        to: async (v: string, meta: Tz.Meta) => {
                            await tuya.sendDataPointBool(meta.device.endpoints[0], 101, v === "heat", "dataRequest", 1);
                        },
                        from: (v: boolean) => (v === true ? "heat" : "off"),
                    },
                ],
                [
                    3,
                    "heating_demand",
                    {
                        from: (v: unknown) => {
                            const value = Array.isArray(v) ? v[v.length - 1] : v;
                            return value === 1 ? "ON" : "OFF";
                        },
                        to: (v: string) => (v === "ON" ? 1 : 0),
                    },
                ],
                [106, "temporary_leaving", tuya.valueConverter.onOff],
                [40, "child_lock", tuya.valueConverter.lockUnlock],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_pbo8cj0z", "_TZE200_eo6xhfbo"]),
        model: "TS0601_GTZ10",
        vendor: "Tuya",
        description: "Thermostat radiator valve",
        extend: [tuya.modernExtend.tuyaBase({dp: true, forceTimeUpdates: true, timeStart: "1970"})],
        ota: true,
        exposes: [
            e.battery(),
            e.child_lock(),
            e.window_detection(),
            e.window_open(),
            e.open_window_temperature().withValueMin(5).withValueMax(30),
            e.max_temperature().withValueMin(15).withValueMax(45),
            e.min_temperature().withValueMin(5).withValueMax(15),
            e
                .climate()
                .withPreset(["manual", "auto", "holiday", "comfort", "eco", "off"])
                .withSetpoint("current_heating_setpoint", 5, 40, 0.5, ea.STATE_SET)
                .withLocalTemperature(ea.STATE)
                .withLocalTemperatureCalibration(-9, 9, 0.5, ea.STATE_SET)
                .withSystemMode(["off", "heat", "auto"], ea.STATE_SET, "Only for Homeassistant")
                .withRunningState(["idle", "heat"], ea.STATE),
            ...tuya.exposes.scheduleAllDays(ea.STATE_SET, "HH:MM/C HH:MM/C HH:MM/C HH:MM/C"),
            tuya.exposes
                .errorStatus()
                .withDescription(
                    "Error status. Possible codes: E1 - builtin sensor error, E2 - external sensor error, E3 - valve not installed, E4 - motor error.",
                ),
            e
                .binary("frost_protection", ea.STATE_SET, "ON", "OFF")
                .withDescription(
                    "When the room temperature is lower than 5 °C, the valve opens; when the temperature rises to 8 °C, the valve closes.",
                ),
            e.binary("boost_heating", ea.STATE_SET, "ON", "OFF").withDescription("Boost Heating: the device will enter the boost heating mode."),
            e
                .numeric("boost_timeset_countdown", ea.STATE_SET)
                .withUnit("m")
                .withDescription(
                    "Setting " +
                        "minimum 0 - maximum 90 minutes boost time. The boost function is activated. The remaining " +
                        "time for the function will be counted down in minutes ( 90 to 0 ).",
                )
                .withValueMin(0)
                .withValueMax(90),
            e.binary("switch_type", ea.STATE_SET, "ON", "OFF").withDescription("Enables/disables valve switch"),
            e
                .numeric("position", ea.STATE_SET)
                .withUnit("%")
                .withValueMin(0)
                .withValueMax(100)
                .withDescription("Position. To set the value you need to turn on valve switch"),
            e.enum("screen_orientation", ea.STATE_SET, ["up", "right", "down", "left"]).withDescription("Screen orientation"),
        ],
        meta: {
            tuyaDatapoints: [
                [
                    2,
                    null,
                    tuya.valueConverter.thermostatSystemModeAndPresetMap({
                        fromMap: {
                            0: {
                                deviceMode: "manual",
                                systemMode: "heat",
                                preset: "manual",
                            },
                            1: {deviceMode: "auto", systemMode: "auto", preset: "auto"},
                            2: {
                                deviceMode: "holiday",
                                systemMode: "heat",
                                preset: "holiday",
                            },
                            3: {
                                deviceMode: "comfort",
                                systemMode: "heat",
                                preset: "comfort",
                            },
                            4: {deviceMode: "eco", systemMode: "heat", preset: "eco"},
                            5: {deviceMode: "off", systemMode: "off", preset: "off"},
                        },
                    }),
                ],
                [
                    2,
                    "preset",
                    tuya.valueConverter.thermostatSystemModeAndPresetMap({
                        toMap: {
                            manual: new tuya.Enum(0),
                            auto: new tuya.Enum(1),
                            holiday: new tuya.Enum(2),
                            comfort: new tuya.Enum(3),
                            eco: new tuya.Enum(4),
                            off: new tuya.Enum(5),
                        },
                    }),
                ],
                [
                    2,
                    "system_mode",
                    tuya.valueConverter.thermostatSystemModeAndPresetMap({
                        toMap: {
                            heat: new tuya.Enum(0),
                            auto: new tuya.Enum(1),
                            off: new tuya.Enum(5),
                        },
                    }),
                ],
                [4, "current_heating_setpoint", tuya.valueConverter.divideBy10],
                [5, "local_temperature", tuya.valueConverter.divideBy10],
                [6, "battery", tuya.valueConverter.raw],
                [7, "child_lock", tuya.valueConverter.lockUnlock],
                [9, "max_temperature", tuya.valueConverter.divideBy10],
                [10, "min_temperature", tuya.valueConverter.divideBy10],
                [14, "window_detection", tuya.valueConverter.onOff],
                [15, "window_open", tuya.valueConverter.onOff],
                [16, "open_window_temperature", tuya.valueConverter.divideBy10],
                [28, "schedule_monday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(1)],
                [29, "schedule_tuesday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(2)],
                [30, "schedule_wednesday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(3)],
                [31, "schedule_thursday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(4)],
                [32, "schedule_friday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(5)],
                [33, "schedule_saturday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(6)],
                [34, "schedule_sunday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(7)],
                [35, "error_status", tuya.valueConverter.raw],
                [36, "frost_protection", tuya.valueConverter.onOff],
                [37, "boost_heating", tuya.valueConverter.onOff],
                [38, "boost_timeset_countdown", tuya.valueConverter.raw],
                [47, "local_temperature_calibration", tuya.valueConverter.localTempCalibration1],
                [
                    49, //valve_state
                    "running_state",
                    tuya.valueConverterBasic.lookup({
                        idle: tuya.enum(0),
                        heat: tuya.enum(1),
                        closing: tuya.enum(2),
                        opening: tuya.enum(3),
                    }),
                ],
                [113, "switch_type", tuya.valueConverter.onOff], // valve_switch
                [115, "position", tuya.valueConverter.raw], // valve_opening
                [
                    119,
                    "screen_orientation",
                    tuya.valueConverterBasic.lookup({
                        up: tuya.enum(0),
                        down: tuya.enum(1),
                        left: tuya.enum(2),
                        right: tuya.enum(3),
                    }),
                ],
                // Exposed but not used DPs
                [1, "preheat", tuya.valueConverter.raw],
                [3, "working_status", tuya.valueConverter.raw],
                [8, "temperature_scale", tuya.valueConverter.raw],
                [11, "max_temperature_f", tuya.valueConverter.divideBy10],
                [12, "min_temperature_f", tuya.valueConverter.divideBy10],
                [17, "open_window_time", tuya.valueConverter.raw],
                [18, "backlight", tuya.valueConverter.raw],
                [39, "switch_scale", tuya.valueConverter.raw],
                [40, "local_temperature_f", tuya.valueConverter.divideBy10],
                [41, "current_heating_setpoint_f", tuya.valueConverter.divideBy10],
                [46, "open_window_temperature_f", tuya.valueConverter.divideBy10],
                [48, "valve_testing", tuya.valueConverter.raw],
                [112, "local_temperature_calibration_f", tuya.valueConverter.localTempCalibration1],
                [114, "valve_control_type", tuya.valueConverterBasic.lookup({PID: 0, ONOFF: 1})],
                [116, "frost_temperature", tuya.valueConverter.raw],
                [117, "frost_temperature_f", tuya.valueConverter.raw],
                [118, "auto_time", tuya.valueConverter.raw],
                [120, "multi_control_link", tuya.valueConverter.raw],
                [121, "holiday_time", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE284_kyyu8rbj"]),
        model: "ME201WZ",
        vendor: "Tuya",
        description: "Water level sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true, forceTimeUpdates: true})],
        exposes: [
            e.numeric("liquid_level_percent", ea.STATE).withUnit("%").withDescription("Liquid level ratio"),
            e.numeric("liquid_depth", ea.STATE).withUnit("m").withDescription("Liquid Depth"),
            e.enum("liquid_state", ea.STATE, ["low", "normal", "high"]).withDescription("Liquid level status"),
            e
                .numeric("max_set", ea.STATE_SET)
                .withUnit("%")
                .withDescription("Liquid max percentage")
                .withValueMin(0)
                .withValueMax(100)
                .withValueStep(1),
            e
                .numeric("mini_set", ea.STATE_SET)
                .withUnit("%")
                .withDescription("Liquid minimal percentage")
                .withValueMin(0)
                .withValueMax(100)
                .withValueStep(1),
            e
                .numeric("installation_height", ea.STATE_SET)
                .withUnit("m")
                .withDescription("Height from sensor to tank bottom")
                .withValueMin(0.1)
                .withValueMax(4)
                .withValueStep(0.01),
            e
                .numeric("liquid_depth_max", ea.STATE_SET)
                .withUnit("m")
                .withDescription("Height from sensor to liquid level")
                .withValueMin(0.1)
                .withValueMax(4)
                .withValueStep(0.01),
        ],
        meta: {
            tuyaDatapoints: [
                [
                    1,
                    "liquid_state",
                    tuya.valueConverterBasic.lookup({
                        low: tuya.enum(1),
                        normal: tuya.enum(0),
                        high: tuya.enum(2),
                    }),
                ],
                [2, "liquid_depth", tuya.valueConverter.divideBy100],
                [22, "liquid_level_percent", tuya.valueConverter.raw],
                [7, "max_set", tuya.valueConverter.raw],
                [8, "mini_set", tuya.valueConverter.raw],
                [19, "installation_height", tuya.valueConverter.divideBy100],
                [21, "liquid_depth_max", tuya.valueConverter.divideBy100],
            ],
        },
    },
    {
        fingerprint: [{modelID: "TS0601", manufacturerName: "_TZE200_lvkk0hdg"}],
        model: "TLC2206",
        vendor: "Tuya",
        description: "Water level sensor",
        extend: [m.forcePowerSource({powerSource: "Mains (single phase)"}), tuya.modernExtend.tuyaBase({dp: true, forceTimeUpdates: true})],
        exposes: [
            e.numeric("liquid_level_percent", ea.STATE).withUnit("%").withDescription("Liquid level ratio"),
            e.numeric("liquid_depth", ea.STATE).withUnit("cm").withDescription("Liquid depth"),
            e.enum("liquid_state", ea.STATE, ["low", "normal", "high"]).withDescription("Liquid level status"),
            e
                .numeric("max_set", ea.STATE_SET)
                .withUnit("%")
                .withDescription("Liquid max percentage")
                .withValueMin(0)
                .withValueMax(100)
                .withValueStep(1),
            e
                .numeric("min_set", ea.STATE_SET)
                .withUnit("%")
                .withDescription("Liquid minimal percentage")
                .withValueMin(0)
                .withValueMax(100)
                .withValueStep(1),
            e
                .numeric("installation_height", ea.STATE_SET)
                .withUnit("mm")
                .withDescription("Height from sensor to tank bottom")
                .withValueMin(10)
                .withValueMax(4000)
                .withValueStep(5),
            e
                .numeric("liquid_depth_max", ea.STATE_SET)
                .withUnit("mm")
                .withDescription("Height from sensor to liquid level")
                .withValueMin(10)
                .withValueMax(4000)
                .withValueStep(5),
        ],
        meta: {
            tuyaDatapoints: [
                [
                    1,
                    "liquid_state",
                    tuya.valueConverterBasic.lookup({
                        low: tuya.enum(1),
                        normal: tuya.enum(0),
                        high: tuya.enum(2),
                    }),
                ],
                [2, "liquid_depth", tuya.valueConverter.raw], // mm
                [22, "liquid_level_percent", tuya.valueConverter.raw],
                [7, "max_set", tuya.valueConverter.raw],
                [8, "min_set", tuya.valueConverter.raw],
                [19, "installation_height", tuya.valueConverter.raw],
                [21, "liquid_depth_max", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_q12rv9gj"]),
        model: "HHST001",
        vendor: "HeatHUB",
        description: "Fan coil thermostat",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.binary("state", ea.STATE_SET, "ON", "OFF").withDescription("Turn the thermostat ON/OFF"),
            e
                .climate()
                .withLocalTemperature(ea.STATE)
                .withSystemMode(["cool", "heat", "fan_only"], ea.STATE_SET)
                .withSetpoint("current_heating_setpoint", 5, 45, 0.5, ea.STATE_SET)
                .withFanMode(["auto", "high", "medium", "low", "off"], ea.STATE_SET)
                .withLocalTemperatureCalibration(-9, 9, 0.1, ea.STATE_SET),
            e
                .numeric("deadzone_temperature", ea.STATE_SET)
                .withValueMax(5)
                .withValueMin(1)
                .withValueStep(1)
                .withPreset("default", 1, "Default value")
                .withDescription("The difference between the local temperature that triggers heating and the set temperature"),
            e.min_temperature().withValueMin(5).withValueMax(15),
            e.max_temperature().withValueMin(35).withValueMax(45),
            e.child_lock(),
            e.humidity(),
            e.binary("manual_mode", ea.STATE_SET, "Auto", "Manual").withDescription("Manual = Manual or Schedule = Auto"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "state", tuya.valueConverter.onOff],
                [
                    2,
                    "system_mode",
                    tuya.valueConverterBasic.lookup({
                        cool: tuya.enum(0),
                        heat: tuya.enum(1),
                        fan_only: tuya.enum(2),
                    }),
                ],
                [16, "current_heating_setpoint", tuya.valueConverter.divideBy10],
                [19, "max_temperature", tuya.valueConverter.divideBy10],
                [18, "max_temperature_f", tuya.valueConverter.raw],
                [20, "min_temperature_f", tuya.valueConverter.raw],
                [21, "local_temperature_f", tuya.valueConverter.raw],
                [24, "local_temperature", tuya.valueConverter.divideBy10],
                [26, "min_temperature", tuya.valueConverter.divideBy10],
                [102, "local_temperature_calibration", tuya.valueConverter.localTempCalibration1],
                [103, "local_temperature_calibration_f", tuya.valueConverter.raw],
                [104, "deadzone_temperature", tuya.valueConverter.raw],
                [105, "deadzone_temperature_f", tuya.valueConverter.raw],
                [
                    28,
                    "fan_mode",
                    tuya.valueConverterBasic.lookup({
                        auto: tuya.enum(0),
                        high: tuya.enum(1),
                        medium: tuya.enum(2),
                        low: tuya.enum(3),
                        off: tuya.enum(4),
                    }),
                ],
                [40, "child_lock", tuya.valueConverter.lockUnlock],
                [44, "current_heating_setpoint_f", tuya.valueConverter.raw],
                [46, "temperature_scale", tuya.valueConverter.raw],
                [
                    101,
                    "manual_mode",
                    tuya.valueConverterBasic.lookup({
                        Auto: tuya.enum(0),
                        Manual: tuya.enum(1),
                        Tempoary: tuya.enum(2),
                    }),
                ],
                [113, "humidity", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE284_8zizsafo", "_TZE284_iilebqoo"]),
        model: "GX03",
        vendor: "GIEX",
        description: "GIEX 2 zone watering timer",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.binary("valve_1", ea.STATE_SET, "ON", "OFF").withDescription("Switch state"),
            e
                .numeric("countdown_1", ea.STATE_SET)
                .withValueMin(1)
                .withValueMax(1440)
                .withValueStep(1)
                .withUnit("min")
                .withDescription("Countdown timer for valve operation"),
            e.binary("valve_2", ea.STATE_SET, "ON", "OFF").withDescription("Switch state"),
            e
                .numeric("countdown_2", ea.STATE_SET)
                .withValueMin(1)
                .withValueMax(1440)
                .withValueStep(1)
                .withUnit("min")
                .withDescription("Countdown timer for valve operation"),
            e.battery(),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "valve_1", tuya.valueConverter.onOff],
                [59, "battery", tuya.valueConverter.raw],
                [
                    104,
                    "valve_1",
                    tuya.valueConverterBasic.lookup({
                        OFF: tuya.enum(2),
                        ON: tuya.enum(0),
                    }),
                ],
                [2, "valve_2", tuya.valueConverter.onOff],
                [
                    105,
                    "valve_2",
                    tuya.valueConverterBasic.lookup({
                        OFF: tuya.enum(2),
                        ON: tuya.enum(0),
                    }),
                ],
                [13, "countdown_1", tuya.valueConverter.raw],
                [14, "countdown_2", tuya.valueConverter.raw],
            ],
        },
        whiteLabel: [tuya.whitelabel("Nova Digital", "ZVL-DUAL", "Water Valve with 2 zones", ["_TZE284_iilebqoo"])],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_eaulras5"]),
        model: "PJ3201A",
        vendor: "Dongguan Pinjia Technology Co.,LTD.",
        description: "Human Presence Sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.presence().withDescription("Indicates whether the device detected presence. Will be true also when movement (occupancy) is detected."),
            e
                .occupancy()
                .withDescription(
                    "Indicates whether the device detected movement. Will be true when movement. Can remain true even if the target left the detection range. In this case presence will be reset to false reliably.",
                ),
            e.numeric("closest_target_distance", ea.STATE).withDescription("the target distance away from the sensor").withUnit("m"),
            e
                .numeric("movement_timeout", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(43200)
                .withValueStep(1)
                .withDescription("Timeout until the movement (occupancy) is reset when no further movement is detected. (Occupancy -> None)")
                .withUnit("s"),
            e
                .numeric("idle_timeout", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(43200)
                .withValueStep(1)
                .withDescription("Timeout until the presence is reset when no further presence is detected (Presence -> None)")
                .withUnit("s"),
            e.illuminance(),
            e
                .numeric("far_movement_sensitivity", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(10)
                .withValueStep(1)
                .withDescription("the moving detecting sensitivity 1 meter away"),
            e
                .numeric("near_movement_sensitivity", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(10)
                .withValueStep(1)
                .withDescription("the moving detecting sensitivity  within 1 meter"),
            e
                .numeric("near_presence_sensitivity", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(10)
                .withValueStep(1)
                .withDescription("the presence detecting sensitivity  within 1 meter"),
            e
                .numeric("far_presence_sensitivity", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(10)
                .withValueStep(1)
                .withDescription("the presence detecting sensitivity  1 meter away"),
            e
                .numeric("closest_detection_distance", ea.STATE_SET)
                .withValueMin(0.1)
                .withValueMax(7)
                .withValueStep(0.1)
                .withDescription("The closest distance that can be detected")
                .withUnit("m"),
            e
                .numeric("largest_movement_detection_distance", ea.STATE_SET)
                .withValueMin(0.1)
                .withValueMax(7)
                .withValueStep(0.1)
                .withDescription("The farthest distance that can be detected (moving)")
                .withUnit("m"),
            e
                .numeric("largest_presence_detection_distance", ea.STATE_SET)
                .withValueMin(0.1)
                .withValueMax(7)
                .withValueStep(0.1)
                .withDescription("The farthest distance that can be detected (present)")
                .withUnit("m"),
            e.binary("restore_factory", ea.STATE_SET, "ON", "OFF").withDescription("restore_factory"),
            e.binary("led_indicator", ea.STATE_SET, "ON", "OFF").withDescription("turn on or off the led "),
        ],
        meta: {
            tuyaDatapoints: [
                [104, "presence", tuya.valueConverter.trueFalse1],
                [112, "occupancy", tuya.valueConverter.trueFalseInvert],
                [9, "closest_target_distance", tuya.valueConverter.divideBy100],
                [101, "movement_timeout", tuya.valueConverter.raw],
                [102, "idle_timeout", tuya.valueConverter.raw],
                [103, "illuminance", tuya.valueConverter.divideBy10],
                [105, "far_movement_sensitivity", tuya.valueConverter.raw],
                [110, "near_movement_sensitivity", tuya.valueConverter.raw],
                [109, "near_presence_sensitivity", tuya.valueConverter.raw],
                [111, "far_presence_sensitivity", tuya.valueConverter.raw],
                [3, "closest_detection_distance", tuya.valueConverter.divideBy100],
                [4, "largest_movement_detection_distance", tuya.valueConverter.divideBy100],
                [108, "largest_presence_detection_distance", tuya.valueConverter.divideBy100],
                [106, "restore_factory", tuya.valueConverterBasic.lookup({ON: false, OFF: true})],
                [107, "led_indicator", tuya.valueConverterBasic.lookup({ON: false, OFF: true})],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0225", ["_TZ321C_fkzihax8", "_TZ321C_4slreunp"]),
        model: "MTD085-ZB",
        vendor: "LeapMMW",
        description: "Human presence sensor",
        extend: [tuyaBase({dp: true})],
        fromZigbee: [fz.ias_occupancy_alarm_1, fz.ias_occupancy_alarm_1_report],
        exposes: [
            e.occupancy(),
            e.illuminance(),
            e.numeric("target_distance", ea.STATE).withDescription("Distance to target").withUnit("m"),
            e
                .numeric("radar_sensitivity", ea.STATE_SET)
                .withValueMin(10)
                .withValueMax(100)
                .withValueStep(10)
                .withUnit("%")
                .withDescription("Detection threshold for the strength of object energy"),
            e
                .numeric("detection_range", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(8)
                .withValueStep(0.1)
                .withUnit("m")
                .withDescription("Maximum distance detected by the sensor"),
            e
                .numeric("shield_range", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(8)
                .withValueStep(0.1)
                .withUnit("m")
                .withDescription("Nearest distance detected by the sensor"),
            e
                .numeric("entry_sensitivity", ea.STATE_SET)
                .withValueMin(10)
                .withValueMax(100)
                .withValueStep(10)
                .withUnit("%")
                .withDescription("Sensitivity threshold triggered for the first time when the target enters the detection range"),
            e
                .numeric("entry_distance", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(8)
                .withValueStep(0.1)
                .withUnit("m")
                .withDescription("Detection distance when unoccupied"),
            e
                .numeric("entry_filter_time", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(0.5)
                .withValueStep(0.05)
                .withUnit("s")
                .withDescription("Sensitivity threshold triggered for the first time when the target enters the detection range "),
            e
                .numeric("departure_delay", ea.STATE_SET)
                .withValueMin(5)
                .withValueMax(7200)
                .withValueStep(1)
                .withUnit("s")
                .withDescription("Confirmation time after the target disappears"),
            e
                .numeric("block_time", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(10)
                .withValueStep(0.1)
                .withUnit("s")
                .withDescription("Time for the target to be detected again after switching from manned(occupy) to unmanned(unoccupy) mode"),
            e.enum("status_indication", ea.STATE_SET, ["OFF", "ON"]).withDescription("Indicator light will turn on when human presence is detected"),
            e
                .enum("sensor", ea.STATE_SET, ["on", "occupied", "unoccupied"])
                .withDescription(
                    "The radar sensor can be set in three states: on, occupied and unoccupied. For example, if set to occupied, " +
                        "it will continue to maintain presence regardless of whether someone is present or not. If set to unoccupied, the unoccupied " +
                        "state will be maintained permanently.",
                ),
            e
                .enum("scene_preset", ea.STATE_SET, [
                    "Custom",
                    "Toilet",
                    "Kitchen",
                    "Hallway",
                    "Bedroom",
                    "Livingroom",
                    "Meetingroom",
                    "Factory default",
                ])
                .withDescription("Presets"),
            e
                .enum("distance_report_mode", ea.STATE_SET, ["Normal", "Occupancy detection"])
                .withDescription("Indicator light will turn on when human presence is detected"),
            e
                .enum("debug_mode", ea.STATE_SET, ["OFF", "ON"])
                .withDescription("In debug mode, radar will report more information, can be used to identify interference"),
            e.numeric("debug_distance", ea.STATE).withDescription("Real time distance to target").withUnit("m"),
            e.numeric("debug_countdown", ea.STATE).withDescription("Time before the target disappears").withUnit("s"),
        ],
        meta: {
            tuyaSendCommand: "sendData",
            tuyaDatapoints: [
                //			[1, 'presence', tuya.valueConverter.trueFalse1],
                [101, "entry_sensitivity", tuya.valueConverter.raw],
                [102, "entry_distance", tuya.valueConverter.divideBy100],
                [103, "departure_delay", tuya.valueConverter.raw],
                [104, "entry_filter_time", tuya.valueConverter.divideBy100],
                [105, "block_time", tuya.valueConverter.divideBy10],
                [107, "illuminance", tuya.valueConverter.divideBy10],
                [
                    108,
                    "debug_mode",
                    tuya.valueConverterBasic.lookup({
                        OFF: tuya.enum(0),
                        ON: tuya.enum(1),
                    }),
                ],
                [109, "debug_distance", tuya.valueConverter.divideBy100],
                [110, "debug_countdown", tuya.valueConverter.raw],
                [
                    111,
                    "scene_preset",
                    tuya.valueConverterBasic.lookup({
                        Custom: tuya.enum(0),
                        Toilet: tuya.enum(1),
                        Kitchen: tuya.enum(2),
                        Hallway: tuya.enum(3),
                        Bedroom: tuya.enum(4),
                        Livingroom: tuya.enum(5),
                        Meetingroom: tuya.enum(6),
                        Default: tuya.enum(7),
                    }),
                ],
                [
                    112,
                    "sensor",
                    tuya.valueConverterBasic.lookup({
                        on: tuya.enum(0),
                        occupied: tuya.enum(1),
                        unoccupied: tuya.enum(2),
                    }),
                ],
                [113, "cline", tuya.valueConverter.raw],
                [
                    114,
                    "status_indication",
                    tuya.valueConverterBasic.lookup({
                        OFF: tuya.enum(0),
                        ON: tuya.enum(1),
                    }),
                ],
                [115, "radar_sensitivity", tuya.valueConverter.raw],
                [116, "shield_range", tuya.valueConverter.divideBy100],
                [117, "detection_range", tuya.valueConverter.divideBy100],
                [118, "equipment_status", tuya.valueConverter.raw],
                [119, "target_distance", tuya.valueConverter.divideBy100],
                [
                    120,
                    "distance_report_mode",
                    tuya.valueConverterBasic.lookup({
                        Normal: tuya.enum(0),
                        "Occupancy detection": tuya.enum(1),
                    }),
                ],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_d6i25bwg"]),
        model: "PO-BOCO-ELEC",
        vendor: "Powernity",
        description: "Pilot wire heating module",
        extend: [tuyaBase({dp: true, timeStart: "1970"})],
        exposes: [
            e
                .climate()
                .withPreset(["manual", "auto", "holiday"])
                .withLocalTemperature(ea.STATE)
                .withSetpoint("occupied_heating_setpoint", 0, 20, 1, ea.STATE_SET)
                .withLocalTemperatureCalibration(-5.5, 5.5, 0.5, ea.STATE_SET)
                .withSystemMode(["off", "heat", "auto"], ea.STATE_SET, "Only for Homeassistant"),
            e.enum("auto_mode", ea.STATE_SET, ["off", "antifrost", "eco", "comfort_-2", "comfort_-1", "comfort"]).withDescription("Auto Mode"),
            e.enum("manual_mode", ea.STATE_SET, ["off", "antifrost", "eco", "comfort_-2", "comfort_-1", "comfort"]).withDescription("Manual Mode"),
            tuya.exposes.frostProtection(),
            // e.text("antifrost_mode", ea.STATE),
            e.humidity(),
            e.child_lock(),
            e.window_detection(),
            e
                .enum("window_opening_mode", ea.STATE_SET, ["off", "antifrost", "eco", "comfort_-2", "comfort_-1", "comfort"])
                .withDescription("Window Opening Mode"),
            e
                .numeric("window_opening_mode_duration", ea.STATE_SET)
                .withUnit("min")
                .withDescription("Duration of the window opening mode")
                .withValueMin(1)
                .withValueMax(90),
            tuya.exposes.temperatureUnit(),
            e
                .binary("boost_heating", ea.STATE_SET, "ON", "OFF")
                .withDescription("Boost Heating: the device will enter the boost heating mode.")
                .withCategory("config"),
            e
                .numeric("boost_timeset_countdown", ea.STATE)
                .withUnit("s")
                .withDescription(
                    "The remaining " + "time for the function will be counted down in seconds ( 900 to 0 ) when the boost heating is activated.",
                )
                .withValueMin(0)
                .withValueMax(900),
            e
                .numeric("power_rating", ea.STATE_SET)
                .withDescription(
                    "How much power is the heater rated to. Entering a value will allow the Thermostat to record a value of power usage that can be checked under settings on the physical Thermostat",
                )
                .withUnit("kWh")
                .withValueMin(10)
                .withValueMax(10000)
                .withValueStep(10)
                .withCategory("config"),
            e.numeric("energy_consumed", ea.STATE).withUnit("kWh").withDescription("Consumed energy"),
            e
                .enum("mode_switching", ea.STATE_SET, ["four_modes", "six_modes"])
                .withDescription("Choose the number of mode your heater supports.")
                .withCategory("config"),
            e
                .text("schedule_monday", ea.STATE_SET)
                .withDescription(
                    "Schedule for the auto mode. Can be defined in the following format: " +
                        "`mode / hours:minutes / mode`. " +
                        "For example: `comfort / 06:00 / eco / 12:00 / off`. " +
                        "Note: Minutes can only be set by multiple of 5. Your limited to 9 modes max.",
                ),
            e
                .text("schedule_tuesday", ea.STATE_SET)
                .withDescription(
                    "Schedule for the auto mode. Can be defined in the following format: " +
                        "`mode / hours:minutes / mode`. " +
                        "For example: `comfort / 06:00 / eco / 12:00 / off`. " +
                        "Note: Minutes can only be set by multiple of 5. Your limited to 9 modes max.",
                ),
            e
                .text("schedule_wednesday", ea.STATE_SET)
                .withDescription(
                    "Schedule for the auto mode. Can be defined in the following format: " +
                        "`mode / hours:minutes / mode`. " +
                        "For example: `comfort / 06:00 / eco / 12:00 / off`. " +
                        "Note: Minutes can only be set by multiple of 5. Your limited to 9 modes max.",
                ),
            e
                .text("schedule_thursday", ea.STATE_SET)
                .withDescription(
                    "Schedule for the auto mode. Can be defined in the following format: " +
                        "`mode / hours:minutes / mode`. " +
                        "For example: `comfort / 06:00 / eco / 12:00 / off`. " +
                        "Note: Minutes can only be set by multiple of 5. Your limited to 9 modes max.",
                ),
            e
                .text("schedule_friday", ea.STATE_SET)
                .withDescription(
                    "Schedule for the auto mode. Can be defined in the following format: " +
                        "`mode / hours:minutes / mode`. " +
                        "For example: `comfort / 06:00 / eco / 12:00 / off`. " +
                        "Note: Minutes can only be set by multiple of 5. Your limited to 9 modes max.",
                ),
            e
                .text("schedule_saturday", ea.STATE_SET)
                .withDescription(
                    "Schedule for the auto mode. Can be defined in the following format: " +
                        "`mode / hours:minutes / mode`. " +
                        "For example: `comfort / 06:00 / eco / 12:00 / off`. " +
                        "Note: Minutes can only be set by multiple of 5. Your limited to 9 modes max.",
                ),
            e
                .text("schedule_sunday", ea.STATE_SET)
                .withDescription(
                    "Schedule for the auto mode. Can be defined in the following format: " +
                        "`mode / hours:minutes / mode`. " +
                        "For example: `comfort / 06:00 / eco / 12:00 / off`. " +
                        "Note: Minutes can only be set by multiple of 5. Your limited to 9 modes max.",
                ),
            e
                .text("holiday_start_stop", ea.STATE_SET)
                .withDescription(
                    "The holiday mode will automatically start " +
                        "at the set time starting point and run the holiday mode. Can be defined in the following format: " +
                        "`startYear/startMonth/startDay startHours:startMinutes | endYear/endMonth/endDay endHours:endMinutes  | mode`. " +
                        "For example: `2024/12/12 09:00 | 2024/12/14 10:00 | comfort`" +
                        "Note: You cannot set an interval superior at 255 hours. The end date minutes will be ignore.",
                ),
            e.binary("reset_consumption", ea.STATE_SET, "ON", "OFF").withDescription("Reset energy consumption to zero").withCategory("config"),
        ],
        meta: {
            tuyaDatapoints: [
                [
                    null,
                    "occupied_heating_setpoint",
                    {
                        to: async (v: number, meta: Tz.Meta) => {
                            const entity = meta.device.endpoints[0];
                            const mode = meta.state.mode_switching;
                            let temp = v;
                            if (meta.state.temperature_unit === "fahrenheit") temp = ((temp - 32) * 5) / 9;

                            await tuya.sendDataPointEnum(entity, 2, 1, "dataRequest", 1); // manual
                            if (temp === 0) {
                                await tuya.sendDataPointEnum(entity, 127, 5, "dataRequest", 3); //off
                            } else if (temp < 16) {
                                await tuya.sendDataPointEnum(entity, 127, 4, "dataRequest", 3); //antifrost
                            } else if (temp >= 19) {
                                await tuya.sendDataPointEnum(entity, 127, 0, "dataRequest", 1); //comfort
                            } else if (mode === 1) {
                                if (temp === 17) {
                                    await tuya.sendDataPointEnum(entity, 127, 2, "dataRequest", 1); // comfort-2
                                } else if (temp === 18) {
                                    await tuya.sendDataPointEnum(entity, 127, 1, "dataRequest", 1); // comfort-1
                                }
                            } else {
                                await tuya.sendDataPointEnum(entity, 127, 3, "dataRequest", 1); // eco
                            }

                            return v;
                        },
                    },
                ],
                [
                    2,
                    "preset",
                    tuya.valueConverterBasic.lookup({
                        auto: tuya.enum(0),
                        manual: tuya.enum(1),
                        holiday: tuya.enum(2),
                    }),
                ],
                [
                    null,
                    "system_mode",
                    {
                        // Extend system_mode to support 'off' in addition to 'heat' and 'auto'
                        to: async (v: string, meta: Tz.Meta) => {
                            const entity = meta.device.endpoints[0];
                            let temp = meta.state.occupied_heating_setpoint as number;
                            if (meta.state.temperature_unit === "fahrenheit") temp = ((temp - 32) * 5) / 9;
                            const mode = meta.state.mode_switching;

                            switch (v) {
                                case "off":
                                    await tuya.sendDataPointEnum(entity, 2, 1, "dataRequest", 1); // manual
                                    await tuya.sendDataPointEnum(entity, 127, 5, "dataRequest", 1); // off
                                    break;
                                case "heat":
                                    await tuya.sendDataPointEnum(entity, 2, 1, "dataRequest", 1); // manual
                                    if (temp === 0) {
                                        await tuya.sendDataPointEnum(entity, 127, 5, "dataRequest", 3); //off
                                    } else if (temp < 16) {
                                        await tuya.sendDataPointEnum(entity, 127, 4, "dataRequest", 3); //antifrost
                                    } else if (temp >= 19) {
                                        await tuya.sendDataPointEnum(entity, 127, 0, "dataRequest", 1); //comfort
                                    } else if (mode === 1) {
                                        if (temp === 17) {
                                            await tuya.sendDataPointEnum(entity, 127, 2, "dataRequest", 1); // comfort-2
                                        } else if (temp === 18) {
                                            await tuya.sendDataPointEnum(entity, 127, 1, "dataRequest", 1); // comfort-1
                                        }
                                    } else {
                                        await tuya.sendDataPointEnum(entity, 127, 3, "dataRequest", 1); // eco
                                    }
                                    break;
                                case "auto":
                                    await tuya.sendDataPointEnum(entity, 2, 0, "dataRequest", 1); // auto
                                    break;
                            }
                        },
                    },
                ],
                [8, "humidity", tuya.valueConverter.raw],
                [11, "energy_consumed", tuya.valueConverter.raw],
                [16, "local_temperature", tuya.valueConverter.divideBy10],
                [39, "child_lock", tuya.valueConverter.lockUnlock],
                [46, "temperature_unit", tuya.valueConverter.temperatureUnitEnum],
                [101, "local_temperature_calibration", tuya.valueConverter.localTempCalibration1],
                [108, "boost_heating", tuya.valueConverter.onOff],
                [114, "schedule_monday", tuya.valueConverter.PO_BOCO_ELEC_schedule(1)],
                [115, "schedule_tuesday", tuya.valueConverter.PO_BOCO_ELEC_schedule(2)],
                [116, "schedule_wednesday", tuya.valueConverter.PO_BOCO_ELEC_schedule(3)],
                [117, "schedule_thursday", tuya.valueConverter.PO_BOCO_ELEC_schedule(4)],
                [118, "schedule_friday", tuya.valueConverter.PO_BOCO_ELEC_schedule(5)],
                [119, "schedule_saturday", tuya.valueConverter.PO_BOCO_ELEC_schedule(6)],
                [120, "schedule_sunday", tuya.valueConverter.PO_BOCO_ELEC_schedule(7)],
                [123, "boost_timeset_countdown", tuya.valueConverter.raw],
                // [125, "temperature_antifreeze", tuya.valueConverterBasic.raw],
                [
                    126,
                    "auto_mode",
                    tuya.valueConverterBasic.lookup({
                        off: tuya.enum(5),
                        antifrost: tuya.enum(4),
                        eco: tuya.enum(3),
                        "comfort_-2": tuya.enum(2),
                        "comfort_-1": tuya.enum(1),
                        comfort: tuya.enum(0),
                    }),
                ],
                [
                    127,
                    "manual_mode",
                    tuya.valueConverterBasic.lookup({
                        off: tuya.enum(5),
                        antifrost: tuya.enum(4),
                        eco: tuya.enum(3),
                        "comfort_-2": tuya.enum(2),
                        "comfort_-1": tuya.enum(1),
                        comfort: tuya.enum(0),
                    }),
                ],
                [136, "frost_protection", tuya.valueConverter.onOff],
                // [137, "antifrost", tuya.valueConverterBasic.raw],
                [138, "window_detection", tuya.valueConverter.onOff],
                [
                    139,
                    "window_opening_mode",
                    tuya.valueConverterBasic.lookup({
                        off: tuya.enum(5),
                        antifrost: tuya.enum(4),
                        eco: tuya.enum(3),
                        "comfort_-2": tuya.enum(2),
                        "comfort_-1": tuya.enum(1),
                        comfort: tuya.enum(0),
                    }),
                ],
                [140, "window_opening_mode_duration", tuya.valueConverter.raw],
                [141, "reset_consumption", tuya.valueConverter.onOff],
                [142, "power_rating", tuya.valueConverter.raw],
                [143, "holiday_start_stop", tuya.valueConverter.PO_BOCO_ELEC_holiday],
                [
                    144,
                    "mode_switching",
                    tuya.valueConverterBasic.lookup({
                        four_modes: tuya.enum(0),
                        six_modes: tuya.enum(1),
                    }),
                ],
                // [145, "weekly temperature replication function", ],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_eekpf0ft", "_TZE284_eekpf0ft"]),
        model: "TR-M3Z",
        vendor: "Tuya",
        description: "Thermostatic radiator valve actuator",
        extend: [tuyaBase({dp: true, timeStart: "1970"})],
        exposes: [
            e.child_lock(),
            e.battery(),
            e.battery_low(),
            e
                .climate()
                .withSetpoint("current_heating_setpoint", 5, 35, 0.5, ea.STATE_SET)
                .withLocalTemperature(ea.STATE)
                .withPreset(["manual", "schedule", "eco", "comfort", "frost_protection", "holiday", "off"])
                .withSystemMode(["off", "heat"], ea.STATE)
                .withRunningState(["idle", "heat"], ea.STATE)
                .withLocalTemperatureCalibration(-9.5, 9.5, 0.5, ea.STATE_SET),
            ...tuya.exposes.scheduleAllDays(ea.STATE_SET, "HH:MM/C HH:MM/C HH:MM/C HH:MM/C HH:MM/C HH:MM/C"),
            e.eco_temperature().withValueMin(5).withValueMax(35).withValueStep(0.5),
            e.comfort_temperature().withValueMin(5).withValueMax(35).withValueStep(0.5),
            e.holiday_temperature().withValueMin(5).withValueMax(35).withValueStep(0.5),
            e
                .binary("window_detection", ea.STATE_SET, "ON", "OFF")
                .withDescription(
                    "Startup: when room temperature decreases by 3°C within 5 minutes, stop heating. " +
                        "Close: when room temperature rises by 3 degrees / 48 minutes later / manual (three ways). " +
                        "After the window opening mode is turned on, one of these three conditions can trigger to exit the window opening mode.",
                ),
            e.binary("window_open", ea.STATE, "OPEN", "CLOSE").withDescription("Window status CLOSE or OPEN "),
            e
                .binary("scale_protection", ea.STATE_SET, "ON", "OFF")
                .withDescription(
                    "If the heat sink is not fully opened within " +
                        "two weeks or is not used for a long time, the valve will be blocked due to silting up and the heat sink will not be " +
                        "able to be used. To ensure normal use of the heat sink, the controller will automatically open the valve fully every " +
                        'two weeks. It will run for 30 seconds per time with the screen displaying "Ad", then return to its normal working state ' +
                        "again.",
                ),
            e
                .binary("frost_protection", ea.STATE_SET, "ON", "OFF")
                .withDescription(
                    "When the room temperature is lower than 5 °C, the valve opens; when the temperature rises to 8 °C, the valve closes.",
                ),
            e
                .numeric("frost_protection_temperature", ea.STATE_SET)
                .withUnit("°C")
                .withValueMin(5)
                .withValueMax(35)
                .withValueStep(0.5)
                .withDescription(""),
            e
                .numeric("temperature_accuracy", ea.STATE_SET)
                .withUnit("°C")
                .withValueMin(0.5)
                .withValueMax(5)
                .withValueStep(0.5)
                .withDescription("The difference required between local temperature and set point to trigger the valve."),
            e.numeric("error", ea.STATE).withDescription('If NTC is damaged, "Er" will be on the TRV display.'),
        ],
        meta: {
            tuyaDatapoints: [
                [
                    2,
                    "preset",
                    tuya.valueConverterBasic.lookup({
                        manual: tuya.enum(0),
                        schedule: tuya.enum(1),
                        eco: tuya.enum(2),
                        comfort: tuya.enum(3),
                        frost_protection: tuya.enum(4),
                        holiday: tuya.enum(5),
                        off: tuya.enum(6),
                    }),
                ],
                [
                    3,
                    "running_state",
                    tuya.valueConverterBasic.lookup({
                        idle: tuya.enum(0),
                        heat: tuya.enum(1),
                    }),
                ],
                [4, "current_heating_setpoint", tuya.valueConverter.divideBy10],
                [5, "local_temperature", tuya.valueConverter.divideBy10],
                [6, "battery", tuya.valueConverter.raw],
                [7, "child_lock", tuya.valueConverter.lockUnlock],
                [14, "window_detection", tuya.valueConverter.onOff],
                [
                    15,
                    "window_open",
                    tuya.valueConverterBasic.lookup({
                        CLOSE: tuya.enum(0),
                        OPEN: tuya.enum(1),
                    }),
                ],
                [21, "holiday_temperature", tuya.valueConverter.divideBy10],
                [28, "schedule_monday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(1, 6)],
                [29, "schedule_tuesday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(2, 6)],
                [30, "schedule_wednesday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(3, 6)],
                [31, "schedule_thursday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(4, 6)],
                [32, "schedule_friday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(5, 6)],
                [33, "schedule_saturday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(6, 6)],
                [34, "schedule_sunday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(7, 6)],
                [35, "fault_alarm", tuya.valueConverter.errorOrBatteryLow],
                [36, "frost_protection", tuya.valueConverter.onOff],
                [39, "scale_protection", tuya.valueConverter.onOff],
                [47, "local_temperature_calibration", tuya.valueConverter.localTempCalibration3],
                [101, "system_mode", tuya.valueConverterBasic.lookup({off: false, heat: true})],
                [102, "temperature_accuracy", tuya.valueConverter.divideBy10],
                [103, "eco_temperature", tuya.valueConverter.divideBy10],
                [104, "comfort_temperature", tuya.valueConverter.divideBy10],
                [105, "frost_protection_temperature", tuya.valueConverter.divideBy10],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_wem3gxyx"]),
        model: "AE-940K",
        vendor: "ACMELEC",
        description: "Compatible with Daikin vrv system",
        extend: [tuya.modernExtend.tuyaBase({dp: true, timeStart: "2000"})],
        exposes: [
            e.binary("state", ea.STATE_SET, "ON", "OFF").withDescription("Turn the thermostat ON/OFF"),
            e
                .climate()
                .withSystemMode(["cool", "heat", "fan_only", "dry"], ea.STATE_SET)
                .withSetpoint("current_heating_setpoint", 16, 32, 1, ea.STATE_SET)
                .withFanMode(["low", "medium", "high", "auto"], ea.STATE_SET)
                .withLocalTemperature(ea.STATE),
            e.child_lock(),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "state", tuya.valueConverter.onOff],
                [
                    2,
                    "system_mode",
                    tuya.valueConverterBasic.lookup({
                        cool: tuya.enum(0),
                        heat: tuya.enum(1),
                        fan_only: tuya.enum(2),
                        dry: tuya.enum(3),
                    }),
                ],
                [16, "current_heating_setpoint", tuya.valueConverter.raw],
                [
                    28,
                    "fan_mode",
                    tuya.valueConverterBasic.lookup({
                        low: tuya.enum(0),
                        medium: tuya.enum(1),
                        high: tuya.enum(2),
                        auto: tuya.enum(3),
                    }),
                ],
                [40, "child_lock", tuya.valueConverter.lockUnlock],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_mul9abs3"]),
        model: "AE-669K",
        vendor: "ACMELEC",
        description: "Compatible with Mitsubishi Electric vrf system",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.binary("state", ea.STATE_SET, "ON", "OFF").withDescription("Turn the thermostat ON/OFF"),
            e
                .climate()
                .withSystemMode(["cool", "heat", "fan_only", "dry"], ea.STATE_SET)
                .withSetpoint("current_heating_setpoint", 16, 32, 1, ea.STATE_SET)
                .withFanMode(["low", "medium", "high", "auto"], ea.STATE_SET)
                .withLocalTemperature(ea.STATE),
            e.child_lock(),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "state", tuya.valueConverter.onOff],
                [
                    2,
                    "system_mode",
                    tuya.valueConverterBasic.lookup({
                        cool: tuya.enum(0),
                        heat: tuya.enum(1),
                        fan_only: tuya.enum(2),
                        dry: tuya.enum(3),
                    }),
                ],
                [16, "current_heating_setpoint", tuya.valueConverter.raw],
                [
                    28,
                    "fan_mode",
                    tuya.valueConverterBasic.lookup({
                        low: tuya.enum(0),
                        medium: tuya.enum(1),
                        high: tuya.enum(2),
                        auto: tuya.enum(3),
                    }),
                ],
                [40, "child_lock", tuya.valueConverter.lockUnlock],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE284_a14rjslz"]),
        model: "ATMS10013Z3",
        vendor: "Ourtop",
        description: "Zigbee 3 Phase Meter",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        whiteLabel: [{vendor: "Ourtop", model: "ATMS100133Z"}],
        exposes: [
            e.energy(),
            tuya.exposes.voltageWithPhase("a"),
            tuya.exposes.voltageWithPhase("b"),
            tuya.exposes.voltageWithPhase("c"),
            tuya.exposes.powerWithPhase("a"),
            tuya.exposes.powerWithPhase("b"),
            tuya.exposes.powerWithPhase("c"),
            tuya.exposes.currentWithPhase("a"),
            tuya.exposes.currentWithPhase("b"),
            tuya.exposes.currentWithPhase("c"),
            e.produced_energy(),
            e.numeric("total_energy", ea.STATE).withUnit("kWh").withDescription("Total consumed and produced energy"),
            e.power(),
            e.power_reactive(),
            e.power_factor().withUnit("%"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "energy", tuya.valueConverter.divideBy100], // "Forward Active Energy", 7685 -> 76.85kW
                [6, null, tuya.valueConverter.phaseVariant2WithPhase("a")], // "Phase A", CJMAAEMAAAI=
                [7, null, tuya.valueConverter.phaseVariant2WithPhase("b")], // "Phase B"
                [8, null, tuya.valueConverter.phaseVariant2WithPhase("c")], // "Phase C"
                [23, "produced_energy", tuya.valueConverter.divideBy100], // "Reverse Energy", 0 W*h -> 0.0 kW*h
                [24, "total_energy", tuya.valueConverter.divideBy100], // total energy produced + consumed , 7692 W*h -> 76.92kW*h
                [29, "power", tuya.valueConverter.power], // "Total Active Power", 1740 W
                [30, "power_reactive", tuya.valueConverter.power], // "Total Reactive Power", 985 Var
                [50, "power_factor", tuya.valueConverter.raw], // "Overall Power Factor" 88 -> 88 %
            ],
        },
    },
    {
        zigbeeModel: ["TS0901"],
        model: "TS0901",
        vendor: "Tuya",
        description: "Battery powered light",
        extend: [m.battery(), m.light()],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_atdqo4nj"]),
        model: "ZG-WK-DA-Wh-Zigbee",
        vendor: "Tuya",
        description: "Wall thermostat with humidity sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.humidity(),
            e.child_lock(),
            //e.temperature_sensor_select(['internal', 'external', 'both']),
            e
                .climate()
                .withSystemMode(["off", "heat"], ea.STATE_SET)
                .withPreset(["manual", "auto"])
                .withSetpoint("current_heating_setpoint", 5, 35, 0.5, ea.STATE_SET)
                .withRunningState(["idle", "heat"], ea.STATE)
                .withLocalTemperature(ea.STATE)
                .withLocalTemperatureCalibration(-9, 9, 1, ea.STATE_SET),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "system_mode", tuya.valueConverterBasic.lookup({heat: true, off: false})],
                [2, "current_heating_setpoint", tuya.valueConverter.divideBy10],
                [3, "local_temperature", tuya.valueConverter.divideBy10],
                [4, "preset", tuya.valueConverterBasic.lookup({manual: 0, auto: 1})],
                [9, "child_lock", tuya.valueConverter.lockUnlock],
                //[11, 'unknown', null],
                [19, "local_temperature_calibration", tuya.valueConverterBasic.divideBy(1)],
                [102, "running_state", tuya.valueConverterBasic.lookup({heat: 0, idle: 1})],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0003", ["_TZ3000_g9chy2ib"]),
        model: "TS0003_3_gang_switch",
        vendor: "Tuya",
        description: "3 gang switch with backlight",
        extend: [
            tuya.modernExtend.tuyaOnOff({
                powerOnBehavior2: true,
                backlightModeOffOn: true,
                onOffCountdown: true,
                endpoints: ["l1", "l2", "l3"],
            }),
        ],
        fromZigbee: [],
        toZigbee: [],
        endpoint: (device) => ({l1: 1, l2: 2, l3: 3}),
        meta: {
            multiEndpoint: true,
        },
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            for (const ep of [1, 2, 3]) {
                await reporting.bind(device.getEndpoint(ep), coordinatorEndpoint, ["genOnOff"]);
            }
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0001", ["_TZ3000_qvmiyxuk"]),
        model: "TS0001_1_gang_switch",
        vendor: "Tuya",
        description: "1 gang switch with backlight",
        fromZigbee: [],
        extend: [
            tuya.modernExtend.tuyaOnOff({
                powerOnBehavior2: true,
                backlightModeOffOn: true,
                onOffCountdown: true,
            }),
        ],
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            await reporting.bind(device.getEndpoint(1), coordinatorEndpoint, ["genOnOff"]);
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0726", ["_TZ3000_5kxl9esg", "_TZ3002_jn2x20tg"]),
        model: "TS0726_1_gang_scene_switch",
        vendor: "Tuya",
        description: "1 gang switch with scene and backlight",
        whiteLabel: [tuya.whitelabel("BSEED", "EC-GL86ZPCS11", "1 gang switch with scene and backlight", ["_TZ3002_jn2x20tg"])],
        fromZigbee: [fzLocal.TS0726_action],
        exposes: [e.action(["scene_1"])],
        extend: [
            tuya.modernExtend.tuyaOnOff({
                switchMode: true,
                powerOnBehavior2: true,
                backlightModeOffOn: true,
                indicatorModeNoneRelayPos: true,
                onOffCountdown: true,
            }),
        ],
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            await reporting.bind(device.getEndpoint(1), coordinatorEndpoint, ["genOnOff"]);
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0726", ["_TZ3000_ezqbvrqz", "_TZ3002_ymv5vytn", "_TZ3002_6ahhkwyh", "_TZ3002_zjuvw9zf"]),
        model: "TS0726_2_gang_scene_switch",
        vendor: "Tuya",
        description: "2 gang switch with scene and backlight",
        whiteLabel: [tuya.whitelabel("BSEED", "EC-GL86ZPCS21", "2 gang switch with scene and backlight", ["_TZ3002_zjuvw9zf"])],
        fromZigbee: [fzLocal.TS0726_action],
        exposes: [e.action(["scene_1", "scene_2"])],
        extend: [
            tuya.modernExtend.tuyaOnOff({
                switchMode: true,
                powerOnBehavior2: true,
                backlightModeOffOn: true,
                indicatorModeNoneRelayPos: true,
                onOffCountdown: true,
                endpoints: ["l1", "l2"],
            }),
        ],
        endpoint: (device) => ({l1: 1, l2: 2}),
        meta: {
            multiEndpoint: true,
        },
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            for (const ep of [1, 2]) {
                await reporting.bind(device.getEndpoint(ep), coordinatorEndpoint, ["genOnOff"]);
            }
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0726", ["_TZ3000_noru9tix", "_TZ3002_rbnycsav", "_TZ3002_kq3kqwjt"]),
        model: "TS0726_3_gang_scene_switch",
        vendor: "Tuya",
        description: "3 gang switch with scene and backlight",
        fromZigbee: [fzLocal.TS0726_action],
        exposes: [e.action(["scene_1", "scene_2", "scene_3"])],
        extend: [
            tuya.modernExtend.tuyaOnOff({
                switchMode: true,
                powerOnBehavior2: true,
                backlightModeOffOn: true,
                indicatorModeNoneRelayPos: true,
                onOffCountdown: true,
                endpoints: ["l1", "l2", "l3"],
            }),
        ],
        endpoint: (device) => ({l1: 1, l2: 2, l3: 3}),
        meta: {
            multiEndpoint: true,
        },
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            for (const ep of [1, 2, 3]) {
                await reporting.bind(device.getEndpoint(ep), coordinatorEndpoint, ["genOnOff"]);
            }
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0726", ["_TZ3000_rsylfthg", "_TZ3002_umdkr64x"]),
        model: "TS0726_4_gang_scene_switch",
        vendor: "Tuya",
        description: "4 gang switch with scene and backlight",
        fromZigbee: [fzLocal.TS0726_action],
        exposes: [e.action(["scene_1", "scene_2", "scene_3", "scene_4"])],
        extend: [
            tuya.modernExtend.tuyaOnOff({
                switchMode: true,
                powerOnBehavior2: true,
                backlightModeOffOn: true,
                indicatorModeNoneRelayPos: true,
                onOffCountdown: true,
                endpoints: ["l1", "l2", "l3", "l4"],
            }),
        ],
        endpoint: (device) => ({l1: 1, l2: 2, l3: 3, l4: 4}),
        meta: {
            multiEndpoint: true,
        },
        configure: async (device, coordinatorEndpoint) => {
            await tuya.configureMagicPacket(device, coordinatorEndpoint);
            for (const ep of [1, 2, 3, 4]) {
                await reporting.bind(device.getEndpoint(ep), coordinatorEndpoint, ["genOnOff"]);
            }
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_oc7xqqbs"]),
        model: "HY-SZLUMPIR",
        vendor: "Homcloud",
        description: "PIR sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true, respondToMcuVersionResponse: true})],
        exposes: [e.occupancy(), e.illuminance(), e.battery()],
        meta: {
            tuyaDatapoints: [
                [1, "occupancy", tuya.valueConverter.trueFalse0],
                [4, "battery", tuya.valueConverter.raw],
                [101, "illuminance", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_1drr8tab"]),
        model: "XZ-AKT101",
        vendor: "Tuya",
        description: "Intelligent air conditioning wall switch",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        ota: true,
        exposes: [
            e.binary("air_switch", ea.STATE_SET, true, false),
            e.child_lock(),
            e
                .climate()
                .withLocalTemperature(ea.STATE)
                .withSetpoint("current_heating_setpoint", 20, 30, 0.5, ea.STATE_SET)
                .withSystemMode(["cool", "heat", "fan_only"], ea.STATE_SET, "Only for Homeassistant")
                .withFanMode(["low", "medium", "high", "auto"]),
            e
                .numeric("boost_time", ea.STATE_SET)
                .withUnit("H")
                .withDescription("Boost running time. Minimum 0 - maximum 24 hours")
                .withValueMin(0)
                .withValueMax(24)
                .withValueStep(0.5)
                .withCategory("config"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "air_switch", tuya.valueConverter.raw],
                [
                    2,
                    "system_mode",
                    tuya.valueConverterBasic.lookup({
                        heat: tuya.enum(1),
                        cool: tuya.enum(0),
                        fan_only: tuya.enum(2),
                    }),
                ],
                [
                    28,
                    "fan_mode",
                    tuya.valueConverterBasic.lookup({
                        low: tuya.enum(0),
                        medium: tuya.enum(1),
                        high: tuya.enum(2),
                        auto: tuya.enum(3),
                    }),
                ],
                [16, "current_heating_setpoint", tuya.valueConverter.divideBy10],
                [24, "local_temperature", tuya.valueConverter.divideBy10],
                [40, "child_lock", tuya.valueConverter.lockUnlock],
                [101, "boost_time", tuya.valueConverter.divideBy10],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_jcwbwckh"]),
        model: "ZBN-JT-63",
        vendor: "Tuya",
        description: "Din rail switch with power monitoring",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            tuya.exposes.switch(),
            e.numeric("power", ea.STATE).withDescription("power").withUnit("W").withDescription("Instantaneous measured power"),
            e.numeric("current", ea.STATE).withDescription("current").withUnit("A").withDescription("Instantaneous measured electrical current"),
            e.numeric("voltage", ea.STATE).withDescription("voltage").withUnit("V").withDescription("Measured electrical potential value"),
            e.numeric("energy", ea.STATE).withDescription("energy").withUnit("kWh").withDescription("Consumed energy"),
            e.enum("power_outage_memory", ea.STATE_SET, ["on", "off", "restore"]).withDescription("Recover state after power outage"),
            e
                .enum("fault", ea.STATE, [
                    "clear",
                    "short_circuit_alarm",
                    "surge_alarm",
                    "overload_alarm",
                    "leakagecurr_alarm",
                    "temp_dif_fault",
                    "fire_alarm",
                    "high_power_alarm",
                    "self_test_alarm",
                    "ov_cr",
                    "unbalance_alarm",
                    "ov_vol",
                    "undervoltage_alarm",
                    "miss_phase_alarm",
                    "outage_alarm",
                    "magnetism_alarm",
                    "credit_alarm",
                    "no_balance_alarm",
                ])
                .withDescription("Fault status of the device (clear = nothing)"),
            e.text("meter_id", ea.STATE).withDescription("Meter ID (ID of device)"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "energy", tuya.valueConverter.divideBy100],
                [3, null, null],
                [4, null, null],
                [6, null, tuya.valueConverter.phaseVariant3],
                [
                    10,
                    "fault",
                    tuya.valueConverterBasic.lookup({
                        clear: 0,
                        ov_cr: 1,
                        unbalance_alarm: 2,
                        ov_vol: 4,
                        undervoltage_alarm: 8,
                        miss_phase_alarm: 16,
                        outage_alarm: 32,
                        magnetism_alarm: 64,
                        terminal_alarm: 128,
                        cover_alarm: 256,
                        credit_alarm: 512,
                        no_balance_alarm: 1024,
                        battery_alarm: 2048,
                        meter_hardware_alarm: 4096,
                    }),
                ],
                [16, "state", tuya.valueConverter.onOff],
                [
                    18,
                    "meter_id",
                    {
                        from: (v) => {
                            if (typeof v === "object") {
                                const buf = Buffer.from([v[0], v[1], v[2], v[3]]);
                                return buf.readUInt32BE();
                            }
                            return v;
                        },
                    },
                ],
                [
                    23,
                    "power_outage_memory",
                    tuya.valueConverterBasic.lookup({
                        on: 0,
                        off: 1,
                        restore: 2,
                    }),
                ],
            ],
        },
    },
    {
        zigbeeModel: ["5rta89nj"],
        fingerprint: [{modelID: "TS0601", manufacturerName: "_TZ3210_emqmwtym"}],
        model: "EPJ-ZB",
        vendor: "Nova Digital",
        description: "Smart sliding window pusher",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.battery(),
            e.cover_position(),
            e.binary("charge_state", ea.STATE, "true", "false"),
            e.enum("manual_mode", ea.STATE_SET, ["Enable", "Disable"]),
            e.enum("fault", ea.STATE, ["Normal", "None", "Fault"]).withDescription("Motor Fault"),
            e.numeric("countdown", ea.STATE_SET).withValueMin(10).withValueMax(90).withUnit("s").withDescription("Motor timeout"),
            e.enum("motor_direction", ea.STATE_SET, ["Left Side", "Right Side"]).withDescription("Pusher install side"),
            e.enum("mode", ea.STATE_SET, ["Enable", "Disable"]).withDescription("Slow stop mode"),
            e.enum("fixed_window_sash", ea.STATE_SET, ["Up", "Down"]).withDescription("Button position"),
            e.enum("window_detection", ea.STATE, ["Opened", "Closed", "Pending"]).withDescription("Window detection status"),
        ],
        meta: {
            tuyaSendCommand: "sendData",
            tuyaDatapoints: [
                [4, "battery", tuya.valueConverter.raw],
                [102, "state", tuya.valueConverterBasic.lookup({OPEN: 0, CLOSE: 1, STOP: 2})],
                [104, "position", tuya.valueConverter.coverPosition],
                [105, "charge_state", tuya.valueConverter.trueFalse1],
                [106, "manual_mode", tuya.valueConverterBasic.lookup({Enable: 0, Disable: 1})],
                [107, "fault", tuya.valueConverterBasic.lookup({Normal: 0, None: 1, Fault: 2})],
                [108, "countdown", tuya.valueConverter.raw],
                [109, "motor_direction", tuya.valueConverterBasic.lookup({"Left Side": 1, "Right Side": 0})],
                [110, "mode", tuya.valueConverterBasic.lookup({Enable: 1, Disable: 0})],
                [112, "fixed_window_sash", tuya.valueConverterBasic.lookup({Up: 1, Down: 0})],
                [114, "window_detection", tuya.valueConverterBasic.lookup({Opened: 0, Closed: 1, Pending: 2})],
            ],
        },
    },
    {
        zigbeeModel: ["ZG-102ZM"],
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_wzk0x7fq", "_TZE200_jfw0a4aa"]),
        model: "ZG-102ZM",
        vendor: "HOBEIAN",
        description: "Vibration sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.vibration(),
            e.contact(),
            e.battery(),
            e
                .numeric("sensitivity", ea.STATE_SET)
                .withValueMin(1)
                .withValueMax(50)
                .withValueStep(1)
                .withUnit("x")
                .withDescription("The larger the value, the more sensitive it is (refresh and update only while active)"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "vibration", tuya.valueConverter.trueFalse1],
                [101, "contact", tuya.valueConverter.inverse],
                [4, "battery", tuya.valueConverter.raw],
                [6, "sensitivity", tuya.valueConverter.raw],
            ],
        },
    },
    {
        zigbeeModel: ["ZG-204ZV"],
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_uli8wasj", "_TZE200_grgol3xp", "_TZE200_rhgsbacq", "_TZE200_y8jijhba"]),
        model: "ZG-204ZV",
        vendor: "HOBEIAN",
        description: "Millimeter wave motion detection",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.presence(),
            e.illuminance(),
            e.temperature(),
            e.humidity(),
            tuya.exposes.temperatureUnit(),
            tuya.exposes.temperatureCalibration(),
            tuya.exposes.humidityCalibration(),
            e.battery(),
            e
                .numeric("fading_time", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(28800)
                .withValueStep(1)
                .withUnit("s")
                .withDescription("Motion keep time"),
            e.binary("indicator", ea.STATE_SET, "ON", "OFF").withDescription("LED indicator mode"),
            e
                .numeric("illuminance_interval", ea.STATE_SET)
                .withValueMin(1)
                .withValueMax(720)
                .withValueStep(1)
                .withUnit("minutes")
                .withDescription("Light sensing sampling(refresh and update only while active)"),
            e
                .numeric("motion_detection_sensitivity", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(19)
                .withValueStep(1)
                .withUnit("x")
                .withDescription("The larger the value, the more sensitive it is (refresh and update only while active)"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "presence", tuya.valueConverter.trueFalse1],
                [106, "illuminance", tuya.valueConverter.raw],
                [102, "fading_time", tuya.valueConverter.raw],
                [2, "motion_detection_sensitivity", tuya.valueConverter.raw],
                [108, "indicator", tuya.valueConverter.onOff],
                [110, "battery", tuya.valueConverter.raw],
                [111, "temperature", tuya.valueConverter.divideBy10],
                [101, "humidity", tuya.valueConverter.raw],
                [109, "temperature_unit", tuya.valueConverter.temperatureUnit],
                [105, "temperature_calibration", tuya.valueConverter.localTempCalibration3],
                [104, "humidity_calibration", tuya.valueConverter.localTempCalibration2],
                [107, "illuminance_interval", tuya.valueConverter.raw],
            ],
        },
    },
    {
        zigbeeModel: ["ZG-223Z"],
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_jsaqgakf", "_TZE200_u6x1zyv2", "_TZE200_2pddnnrk"]),
        model: "ZG-223Z",
        vendor: "HOBEIAN",
        description: "Rainwater detection sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.enum("rainwater", ea.STATE, ["none", "raining"]).withDescription("Sensor rainwater status"),
            e.illuminance(),
            e
                .numeric("sensitivity", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(9)
                .withValueStep(1)
                .withUnit("x")
                .withDescription("The larger the value, the more sensitive it is (refresh and update only while active)"),
            e
                .numeric("illuminance_sampling", ea.STATE_SET)
                .withValueMin(1)
                .withValueMax(480)
                .withValueStep(1)
                .withUnit("minutes")
                .withDescription("Brightness acquisition interval (refresh and update only while active)"),
            e.battery(),
        ],
        meta: {
            tuyaDatapoints: [
                [
                    1,
                    "rainwater",
                    tuya.valueConverterBasic.lookup({
                        none: tuya.enum(0),
                        raining: tuya.enum(1),
                    }),
                ],
                [102, "illuminance", tuya.valueConverter.raw],
                [104, "battery", tuya.valueConverter.raw],
                [2, "sensitivity", tuya.valueConverter.raw],
                [101, "illuminance_sampling", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_no6qtgtl"]),
        model: "RD24G01",
        vendor: "Tuya",
        description: "24GHz human presence sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            exposes
                .enum("presence_state", exposes.access.STATE, ["none", "motion", "stationary"])
                .withDescription("Presence state: none, motion, or stationary"),
            exposes.numeric("target_distance_closest", exposes.access.STATE).withUnit("m").withDescription("Closest target distance"),
            exposes
                .numeric("near_detection", exposes.access.STATE_SET)
                .withUnit("m")
                .withDescription("Minimum detection range")
                .withValueMin(0.1)
                .withValueMax(6),
            exposes
                .numeric("far_detection", exposes.access.STATE_SET)
                .withUnit("m")
                .withDescription("Maximum detection range")
                .withValueMin(0.1)
                .withValueMax(6),
            exposes
                .numeric("static_sensitivity", exposes.access.STATE_SET)
                .withDescription("Static presence sensitivity")
                .withValueMin(0)
                .withValueMax(10),
            exposes.numeric("motion_sensitivity", exposes.access.STATE_SET).withDescription("Motion sensitivity").withValueMin(0).withValueMax(10),
        ],
        meta: {
            tuyaDatapoints: [
                [
                    1,
                    "presence_state",
                    tuya.valueConverterBasic.lookup({
                        none: 0,
                        motion: 1,
                        stationary: 2,
                    }),
                ],
                [3, "near_detection", tuya.valueConverter.divideBy100],
                [4, "far_detection", tuya.valueConverter.divideBy100],
                [9, "target_distance_closest", tuya.valueConverter.divideBy100],
                [101, "static_sensitivity", tuya.valueConverter.raw],
                [102, "motion_sensitivity", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_gubdgai2", "_TZE200_vdiuwbkq"]),
        model: "M515EGBZTN",
        vendor: "Quoya",
        description: "Zigbee roller blind",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        options: [exposes.options.invert_cover()],
        exposes: [
            e.cover_position().setAccess("position", ea.STATE_SET),
            e.enum("motor_direction", ea.STATE_SET, ["forward", "back"]).withDescription("Motor direction"),
            e.enum("border", ea.STATE_SET, ["up", "down", "up_delete", "down_delete", "remove_top_bottom"]).withDescription("Limit setting"),
        ],
        meta: {
            tuyaDatapoints: [
                [
                    1,
                    "state",
                    tuya.valueConverterBasic.lookup({
                        OPEN: tuya.enum(0),
                        STOP: tuya.enum(1),
                        CLOSE: tuya.enum(2),
                    }),
                ],
                [2, "position", tuya.valueConverter.coverPositionInverted],
                [
                    5,
                    "motor_direction",
                    tuya.valueConverterBasic.lookup({
                        forward: tuya.enum(0),
                        back: tuya.enum(1),
                    }),
                ],
                [
                    16,
                    "border",
                    tuya.valueConverterBasic.lookup({
                        up: tuya.enum(0),
                        down: tuya.enum(1),
                        up_delete: tuya.enum(2),
                        down_delete: tuya.enum(3),
                        remove_top_bottom: tuya.enum(4),
                    }),
                ],
            ],
        },
    },
    {
        zigbeeModel: ["ZG-303Z"],
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_npj9bug3", "_TZE200_wrmhp6b3"]),
        model: "CS-201Z",
        vendor: "COOLO",
        description: "Soil moisture sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.dry(),
            e.temperature(),
            e.humidity(),
            e.soil_moisture(),
            tuya.exposes.temperatureUnit(),
            tuya.exposes.temperatureCalibration(),
            tuya.exposes.humidityCalibration(),
            tuya.exposes.soilCalibration(),
            tuya.exposes.temperatureSampling(),
            tuya.exposes.soilSampling(),
            tuya.exposes.soilWarning(),
            e.battery(),
        ],
        meta: {
            tuyaDatapoints: [
                [106, "dry", tuya.valueConverter.raw],
                [5, "temperature", tuya.valueConverter.divideBy10],
                [109, "humidity", tuya.valueConverter.raw],
                [3, "soil_moisture", tuya.valueConverter.raw],
                [15, "battery", tuya.valueConverter.raw],
                [9, "temperature_unit", tuya.valueConverter.temperatureUnit],
                [104, "temperature_calibration", tuya.valueConverter.localTempCalibration3],
                [105, "humidity_calibration", tuya.valueConverter.localTempCalibration2],
                [102, "soil_calibration", tuya.valueConverter.localTempCalibration2],
                [111, "temperature_sampling", tuya.valueConverter.raw],
                [112, "soil_sampling", tuya.valueConverter.raw],
                [110, "soil_warning", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0001", ["_TZE21C_dohbhb5k"]),
        model: "TYONOFFTS",
        vendor: "Scimagic",
        description: "Smart switch with temperature sensor",
        extend: [
            tuya.modernExtend.tuyaMagicPacket(),
            tuya.modernExtend.dpOnOff({
                dp: 0x02,
            }),
            tuya.modernExtend.dpTemperature({dp: 0x1b}),
            tuya.modernExtend.dpNumeric({
                dp: 0x1e,
                name: "temperature_calibration",
                type: tuya.dataTypes.number,
                valueMin: -10,
                valueMax: 10,
                valueStep: 0.5,
                unit: "°C",
                scale: 2,
                description: "Temperature calibration",
            }),
            tuya.modernExtend.dpNumeric({
                dp: 0x1d,
                name: "temperature_range",
                type: tuya.dataTypes.number,
                valueMin: 1,
                valueMax: 10,
                valueStep: 0.1,
                unit: "°C",
                scale: 10,
                description: "Keep the temperature in a range",
            }),
            tuya.modernExtend.dpBinary({
                name: "auto_work",
                dp: 0x09,
                type: tuya.dataTypes.bool,
                valueOn: ["ON", true],
                valueOff: ["OFF", false],
                description: "Auto work mode",
            }),
            tuya.modernExtend.dpNumeric({
                dp: 0x16,
                name: "temperature_target",
                type: tuya.dataTypes.number,
                valueMin: -100,
                valueMax: 100,
                valueStep: 0.5,
                unit: "°C",
                scale: 10,
                description: "Temperature target",
            }),
            tuya.modernExtend.dpEnumLookup({
                dp: 0x08,
                name: "mode",
                type: tuya.dataTypes.enum,
                lookup: {Heating: 0, Cooling: 2},
                description: "Work mode",
            }),
            tuya.modernExtend.dpBinary({
                name: "delay",
                dp: 0x38,
                type: tuya.dataTypes.bool,
                valueOn: ["ON", 1],
                valueOff: ["OFF", 0],
                description: "Switch delay time mode",
            }),
            tuya.modernExtend.dpNumeric({
                dp: 0x37,
                name: "delay_time",
                type: tuya.dataTypes.number,
                valueMin: 0,
                valueMax: 10,
                valueStep: 1,
                unit: "minute",
                scale: 1,
                description: "Switch delay time",
            }),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE284_5ys44kzo"]),
        model: "TYSCENECUBE",
        vendor: "iHseno",
        description: "Scene cube",
        extend: [
            tuya.modernExtend.tuyaMagicPacket(),
            ...convLocal.sceneCubeAction(),
            tuya.modernExtend.dpBattery({
                dp: 0x0a,
            }),
        ],
    },
    {
        zigbeeModel: ["ZG-305Z"],
        fingerprint: tuya.fingerprint("TS011F", ["_TZ3000_rul9yxcc"]),
        model: "SM-PW801EZ",
        vendor: "Coswall",
        description: "2 gang switch with USB",
        ota: true,
        extend: [
            tuya.modernExtend.tuyaOnOff({
                childLock: true,
                endpoints: ["l1", "l2"],
            }),
        ],
        endpoint: (device) => {
            return {l1: 1, l2: 2};
        },
        meta: {
            multiEndpoint: true,
            multiEndpointSkip: ["power_on_behavior"],
        },
        configure: tuya.configureMagicPacket,

        whiteLabel: [{vendor: "HOBEIAN", model: "ZG-305Z", fingerprint: [{modelID: "ZG-305Z"}]}],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE284_tgeqdjgk"]),
        model: "TS0601_knob_dimmer_switch",
        vendor: "Tuya",
        description: "Dimmer knob with two lights",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        toZigbee: [tzLocal.TS0601_knob_dimmer_switch_group_id],
        exposes: [
            e.switch(),
            e.switch().withEndpoint("l1"),
            e.switch().withEndpoint("l2"),
            tuya.exposes.switchMode().withEndpoint("l1"),
            tuya.exposes.switchMode().withEndpoint("l2"),

            e.light_brightness_colortemp([154, 370]),

            e.enum("adjustment_mode", ea.ALL, ["brightness", "color_temp"]).withDescription("Adjustment mode"),
            tuya.exposes.powerOnBehavior(),
            e.action(["button_1", "button_2"]),
            e.enum("mode", ea.ALL, ["knob", "scene"]).withDescription("Mode"),

            e.numeric("group_id", ea.SET).withValueMin(1).withValueMax(10000).withDescription("Group ID to bind to."),
        ],
        meta: {
            multiEndpoint: true,
            tuyaDatapoints: [
                [102, "state", tuya.valueConverter.onOff],
                [121, "state_l1", tuya.valueConverter.onOff],
                [122, "state_l2", tuya.valueConverter.onOff],
                [131, "switch_mode_l1", tuya.valueConverter.switchMode],
                [132, "switch_mode_l2", tuya.valueConverter.switchMode],
                [103, "brightness", tuya.valueConverterBasic.scale(0, 254, 0, 1000)],
                [107, "color_temp", tuya.valueConverterBasic.scale(154, 370, 0, 1000)],
                [105, "adjustment_mode", tuya.valueConverterBasic.lookup({brightness: tuya.enum(0), color_temp: tuya.enum(1)})],
                [106, "power_on_behavior", tuya.valueConverter.powerOnBehavior],
                [111, "action", tuya.valueConverterBasic.lookup({button_1: tuya.enum(0)})],
                [112, "action", tuya.valueConverterBasic.lookup({button_2: tuya.enum(0)})],
                [141, "mode", tuya.valueConverterBasic.lookup({knob: tuya.enum(0), scene: tuya.enum(1)})],
            ],
        },
        configure: async (device, coordinatorEndpoint) => {
            const endpoint = device.getEndpoint(1);
            await endpoint.command("genBasic", "tuyaSetup", {}, {disableDefaultResponse: true});
        },
        endpoint: (device) => ({
            default: 1,
            l1: 1,
            l2: 1,
        }),
    },
    {
        fingerprint: [{modelID: "TS0601", manufacturerName: "_TZE200_khah2lkr"}],
        model: "HY607W-3A",
        vendor: "Tuya",
        description: "Thermostat for gas boiler",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.climate().withLocalTemperature(ea.STATE).withSetpoint("occupied_heating_setpoint", 5, 35, 0.5, ea.STATE_SET),
            e
                .enum("mode_state", ea.STATE_SET, ["manual", "auto", "temp_override"])
                .withDescription("Thermostat mode: manual, auto, or temp_override"),
            e.binary("state", ea.STATE_SET, "ON", "OFF").withDescription("ON/OFF thermostat"),
            e.enum("running_state", ea.STATE, ["idle", "heat"]).withDescription("State of heating"),
        ],
        meta: {
            tuyaDatapoints: [
                [16, "local_temperature", tuya.valueConverter.divideBy10],
                [50, "occupied_heating_setpoint", tuya.valueConverter.divideBy10],
                [125, "state", tuya.valueConverter.onOff],
                [
                    128,
                    "mode_state",
                    {
                        from: (v: Buffer | number | number[] | string | undefined | {data: number[]}) => {
                            function extractFirstNumericByte(v: Buffer | number | number[] | string | undefined | {data: number[]}) {
                                try {
                                    if (v === undefined || v === null) return undefined;
                                    if (Buffer.isBuffer(v)) return v.length > 0 ? v[0] : undefined;
                                    if (typeof v === "object" && !Array.isArray(v) && "data" in v && Array.isArray(v.data))
                                        return v.data.length > 0 ? v.data[0] : undefined;
                                    if (Array.isArray(v)) return v.length > 0 && typeof v[0] === "number" ? v[0] : undefined;
                                    if (typeof v === "number") return v;
                                    if (typeof v === "string" && v.length > 0) {
                                        const n = Number.parseInt(v, 10);
                                        return Number.isNaN(n) ? undefined : n;
                                    }
                                } catch (_err) {}
                                return undefined;
                            }
                            const b = extractFirstNumericByte(v);
                            const lookup: {[key: number]: string} = {0: "manual", 1: "auto", 3: "temp_override"};
                            return b !== undefined ? lookup[b] : undefined;
                        },
                        to: (v: string) => {
                            if (typeof v !== "string") return undefined;
                            const lookup: {[key: string]: number} = {manual: 0, auto: 1, temp_override: 3};
                            const n = lookup[v];
                            return n !== undefined ? [n] : undefined;
                        },
                    },
                ],
                [102, "running_state", {from: (v: boolean) => (v === true ? "heat" : "idle")}],
            ],
        },
    },
    {
        zigbeeModel: ["ZG-204ZH"],
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_vuqzj1ej", "_TZE200_hdih4foa"]),
        model: "ZG-204ZH",
        vendor: "HOBEIAN",
        description: "PIR 24Ghz human presence sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.presence(),
            e.enum("motion_state", ea.STATE, ["none", "large", "small", "static"]).withDescription("Motion state"),
            e.illuminance(),
            e.temperature(),
            e.humidity(),
            tuya.exposes.temperatureUnit(),
            tuya.exposes.temperatureCalibration(),
            tuya.exposes.humidityCalibration(),
            e.battery(),
            e
                .numeric("fading_time", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(28800)
                .withValueStep(1)
                .withUnit("s")
                .withDescription("Motion keep time"),
            e.binary("indicator", ea.STATE_SET, "ON", "OFF").withDescription("LED indicator mode"),
            e
                .numeric("illuminance_interval", ea.STATE_SET)
                .withValueMin(1)
                .withValueMax(720)
                .withValueStep(1)
                .withUnit("minutes")
                .withDescription("Light sensing sampling(refresh and update only while active)"),
            e
                .numeric("static_detection_distance", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(5)
                .withValueStep(0.01)
                .withUnit("m")
                .withDescription("Static detection distance"),
            e
                .numeric("static_detection_sensitivity", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(10)
                .withValueStep(1)
                .withUnit("x")
                .withDescription("Static detection sensitivity"),
            e.enum("motion_detection_mode", ea.STATE_SET, ["pir_and_radar", "pir_or_radar", "only_radar"]).withDescription("Motion detection mode"),
            e
                .numeric("motion_detection_sensitivity", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(10)
                .withValueStep(1)
                .withUnit("x")
                .withDescription("Radar Motion detection sensitivity"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "presence", tuya.valueConverter.trueFalse1],
                [106, "illuminance", tuya.valueConverter.raw],
                [102, "fading_time", tuya.valueConverter.raw],
                [2, "static_detection_sensitivity", tuya.valueConverter.raw],
                [4, "static_detection_distance", tuya.valueConverter.divideBy100],
                [108, "indicator", tuya.valueConverter.onOff],
                [110, "battery", tuya.valueConverter.raw],
                [111, "temperature", tuya.valueConverter.divideBy10],
                [101, "humidity", tuya.valueConverter.raw],
                [109, "temperature_unit", tuya.valueConverter.temperatureUnit],
                [105, "temperature_calibration", tuya.valueConverter.localTempCalibration3],
                [104, "humidity_calibration", tuya.valueConverter.localTempCalibration2],
                [107, "illuminance_interval", tuya.valueConverter.raw],
                [
                    112,
                    "motion_detection_mode",
                    tuya.valueConverterBasic.lookup({
                        pir_and_radar: tuya.enum(0),
                        pir_or_radar: tuya.enum(1),
                        only_radar: tuya.enum(2),
                    }),
                ],
                [
                    103,
                    "motion_state",
                    tuya.valueConverterBasic.lookup({
                        none: tuya.enum(0),
                        large: tuya.enum(1),
                        small: tuya.enum(2),
                        static: tuya.enum(3),
                    }),
                ],
                [123, "motion_detection_sensitivity", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE284_z5jz7wpo"]),
        model: "_TZE284_z5jz7wpo",
        vendor: "Tuya",
        description: "Ceiling fan control module",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.fan().withState().withSpeed(),
            e.power_on_behavior(["off", "on", "restore"]).withAccess(ea.STATE_SET),
            exposes
                .numeric("countdown_hours", ea.STATE_SET)
                .withUnit("h")
                .withValueMin(0.25)
                .withValueMax(12)
                .withValueStep(0.25)
                .withDescription("Fan ON time in hours (15 min increments)"),
            e.enum("light_mode", ea.STATE_SET, ["none", "relay", "pos"]),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "state", tuya.valueConverter.onOff],
                [
                    2,
                    "countdown_hours",
                    {
                        from: (seconds) => +(seconds / 3600).toFixed(2), // device → HA (hours with 2 decimal places)
                        to: (hours) => Math.min(43200, Math.round(hours * 3600)), // HA → device (seconds)
                    },
                ],
                [
                    3,
                    "speed",
                    {
                        from: (value) => (value + 1) * 51, // device → HA %
                        to: (value) => {
                            // Snap HA % to nearest step: 20%, 40%, 60%, 80%, 100%
                            const snappedStep = Math.max(0, Math.min(4, Math.round(value / 51) - 1));
                            return tuya.enum(snappedStep);
                        },
                    },
                ],
                [11, "power_on_behavior", tuya.valueConverterBasic.lookup({off: tuya.enum(0), on: tuya.enum(1), restore: tuya.enum(2)})],
                [12, "light_mode", tuya.valueConverterBasic.lookup({none: tuya.enum(0), relay: tuya.enum(1), pos: tuya.enum(2)})],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE284_pglpvdar", "_TZE284_4hdbt6rn"]),
        model: "TO-Q-SA1",
        vendor: "Tongou",
        description: "Zigbee energy meter (transformer clamp)",
        whiteLabel: [tuya.whitelabel("Tongou", "TOSA1-01WXJAT2A", "Smart energy meter, two wire", ["_TZE284_4hdbt6rn"])],
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.energy(),
            e.voltage(),
            e.current(),
            e.power(),
            e.ac_frequency(),
            e.power_factor().withUnit("%"),
            e.numeric("temperature", ea.STATE).withUnit("°C").withDescription("Current temperature"),
            e
                .enum("event", ea.STATE, [
                    "normal",
                    "over_current_trip",
                    "over_power_trip",
                    "high_temp_trip",
                    "over_voltage_trip",
                    "under_voltage_trip",
                    "over_current_alarm",
                    "over_power_alarm",
                    "high_temp_alarm",
                    "over_voltage_alarm",
                    "under_voltage_alarm",
                    "remote_on",
                    "remote_off",
                    "manual_on",
                    "manual_off",
                    "leakage_trip",
                    "leakage_alarm",
                    "restore_default",
                    "automatic_closing",
                    "electricity_shortage",
                    "electricity_shortage_alarm",
                    "timing_switch_On",
                    "timing_switch_off",
                ])
                .withDescription("Last event of the device"),
            e.enum("over_current_setting", ea.STATE_SET, ["Ignore", "Alarm"]).withDescription("Over current setting"),
            e
                .numeric("over_current_threshold", ea.STATE_SET)
                .withUnit("A")
                .withDescription("Setup the value on the device")
                .withValueMin(1)
                .withValueMax(50),
            e.enum("over_voltage_setting", ea.STATE_SET, ["Ignore", "Alarm"]).withDescription("Over voltage setting"),
            e
                .numeric("over_voltage_threshold", ea.STATE_SET)
                .withUnit("V")
                .withDescription("Setup value on the device")
                .withValueMin(240)
                .withValueMax(295),
            e.enum("under_voltage_setting", ea.STATE_SET, ["Ignore", "Alarm"]).withDescription("Under voltage setting"),
            e
                .numeric("under_voltage_threshold", ea.STATE_SET)
                .withUnit("V")
                .withDescription("Setup value on the device")
                .withValueMin(90)
                .withValueMax(220),
            e.enum("temperature_setting", ea.STATE_SET, ["Ignore", "Alarm"]).withDescription("Temperature setting"),
            e
                .numeric("temperature_threshold", ea.STATE_SET)
                .withUnit("°C")
                .withDescription("Setup value on the device")
                .withValueMin(-25)
                .withValueMax(80),
            e.enum("over_power_setting", ea.STATE_SET, ["Ignore", "Alarm"]).withDescription("Over power setting"),
            e
                .numeric("over_power_threshold", ea.STATE_SET)
                .withUnit("W")
                .withDescription("Setup value on the device")
                .withValueMin(1000)
                .withValueMax(26000),
        ],
        meta: {
            multiEndpointSkip: ["test1", "forward_electricity"],
            tuyaDatapoints: [
                [1, "energy", tuya.valueConverter.divideBy100], // Total forward energy
                [6, null, tuya.valueConverter.phaseVariant2], // Phase A
                [13, "test1", tuya.valueConverter.raw], // Remaining electricity
                [32, "ac_frequency", tuya.valueConverter.divideBy100], // Grid supply frequency
                [50, "power_factor", tuya.valueConverter.raw], // Overall power factor
                [
                    102,
                    "over_voltage_setting",
                    tuya.valueConverterBasic.lookup({
                        Ignore: tuya.enum(0),
                        Alarm: tuya.enum(1),
                    }),
                ],
                [
                    103,
                    "under_voltage_setting",
                    tuya.valueConverterBasic.lookup({
                        Ignore: tuya.enum(0),
                        Alarm: tuya.enum(1),
                    }),
                ],
                [
                    104,
                    "over_current_setting",
                    tuya.valueConverterBasic.lookup({
                        Ignore: tuya.enum(0),
                        Alarm: tuya.enum(1),
                    }),
                ],
                [
                    105,
                    "over_power_setting",
                    tuya.valueConverterBasic.lookup({
                        Ignore: tuya.enum(0),
                        Alarm: tuya.enum(1),
                    }),
                ],
                [
                    107,
                    "temperature_setting",
                    tuya.valueConverterBasic.lookup({
                        Ignore: tuya.enum(0),
                        Alarm: tuya.enum(1),
                    }),
                ],
                [
                    110,
                    "event",
                    tuya.valueConverterBasic.lookup({
                        normal: 0,
                        over_current_trip: 1,
                        over_power_trip: 2,
                        high_temp_trip: 3,
                        over_voltage_trip: 4,
                        under_voltage_trip: 5,
                        over_current_alarm: 6,
                        over_power_alarm: 7,
                        high_temp_alarm: 8,
                        over_voltage_alarm: 9,
                        under_voltage_alarm: 10,
                        remote_on: 11,
                        remote_off: 12,
                        manual_on: 13,
                        manual_off: 14,
                        leakage_trip: 15,
                        leakage_alarm: 16,
                        restore_default: 17,
                        automatic_closing: 18,
                        electricity_shortage: 19,
                        electricity_shortage_alarm: 20,
                        timing_switch_on: 21,
                        timing_switch_off: 22,
                    }),
                ],
                [114, "over_current_threshold", tuya.valueConverter.raw],
                [115, "over_voltage_threshold", tuya.valueConverter.raw],
                [116, "under_voltage_threshold", tuya.valueConverter.raw],
                [118, "temperature_threshold", tuya.valueConverter.divideBy10],
                [119, "over_power_threshold", tuya.valueConverter.raw],
                [125, "forward_electricity", tuya.valueConverter.raw],
                [131, "temperature", tuya.valueConverter.divideBy10],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_q9xty0ad"]),
        model: "_TZE204_q9xty0ad",
        vendor: "Tuya",
        description: "Ayvolt Blinds",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        options: [exposes.options.invert_cover()],
        exposes: [e.cover_position(), e.enum("motor_direction", ea.STATE_SET, ["normal", "reversed"]).withDescription("Motor direction")],
        meta: {
            tuyaDatapoints: [
                [
                    1,
                    "state",
                    tuya.valueConverterBasic.lookup((options) =>
                        options.invert_cover
                            ? {OPEN: tuya.enum(2), STOP: tuya.enum(1), CLOSE: tuya.enum(0)}
                            : {OPEN: tuya.enum(0), STOP: tuya.enum(1), CLOSE: tuya.enum(2)},
                    ),
                ],
                [
                    3,
                    "work_state",
                    tuya.valueConverterBasic.lookup((options) =>
                        options.invert_cover ? {opening: tuya.enum(1), closing: tuya.enum(0)} : {opening: tuya.enum(0), closing: tuya.enum(1)},
                    ),
                ],
                [
                    8,
                    null,
                    {
                        from: (v, meta, options, publish) => {
                            return {
                                position: tuya.valueConverter.coverPosition.from(v, meta, options, publish),
                            };
                        },
                    },
                ],
                [9, "position", tuya.valueConverter.coverPosition],
                [11, "motor_direction", tuya.valueConverter.tubularMotorDirection],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS011F", ["_TZ3000_qiutut5y"]),
        model: "TS011F_quad_power1",
        vendor: "Tuya",
        description: "Switch with 4 gangs",
        extend: [
            m.deviceEndpoints({endpoints: {"1": 1, "2": 2, "3": 3, "4": 4}}),
            m.onOff({powerOnBehavior: false, endpointNames: ["1", "2", "3", "4"]}),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_3regm3h6", "_TZE204_0hcjew5p"]),
        model: "_TZE204_3regm3h6",
        vendor: "Tuya",
        description: "Smart thermostat for electric radiator with pilot wire",
        extend: [tuya.modernExtend.tuyaBase({dp: true, timeStart: "1970"})],
        whiteLabel: [tuya.whitelabel("THALEOS", "TH-P1Z", "Smart thermostat for electric heater", ["_TZE204_0hcjew5p"])],
        exposes: [
            e.binary("state", ea.STATE_SET, "ON", "OFF").withDescription("Turn the heater on or off").withCategory("config"),
            e.child_lock(),
            e
                .climate()
                .withSetpoint("current_heating_setpoint", 5, 35, 0.5, ea.STATE_SET)
                .withLocalTemperature(ea.STATE)
                .withLocalTemperatureCalibration(-9, 9, 1, ea.STATE_SET)
                .withSystemMode(["off", "heat"], ea.STATE)
                .withPreset(["comfort", "eco", "antifrost", "off", "comfort_1", "comfort_2", "program", "manual"]),
            e
                .enum("mode", ea.STATE, ["comfort", "eco", "antifrost", "off", "comfort_1", "comfort_2", "program", "manual"])
                .withDescription("Current running mode")
                .withCategory("diagnostic"),
            e
                .binary("radiators_without_integrated_regulation", ea.STATE_SET, "ON", "OFF")
                .withDescription(
                    "Enable this for radiator without integrated regulation. OFF if Comfort, Eco and Antifrost temperatures can be defined on the radiator. ON if the radiator has no integrated regulation (i.e define temperatures on the thermostat).",
                )
                .withCategory("config"),
            e
                .numeric("comfort_temperature", ea.STATE_SET)
                .withUnit("  C")
                .withValueMin(5)
                .withValueMax(35)
                .withValueStep(0.5)
                .withDescription("Set comfort temperature")
                .withCategory("config"),
            e
                .numeric("eco_temperature", ea.STATE_SET)
                .withUnit("  C")
                .withValueMin(5)
                .withValueMax(30)
                .withValueStep(0.5)
                .withDescription("Set ECO temperature")
                .withCategory("config"),
            e
                .numeric("antifrost_temperature", ea.STATE_SET)
                .withUnit("  C")
                .withValueMin(5)
                .withValueMax(15)
                .withValueStep(0.5)
                .withDescription("Set antifrost temperature")
                .withCategory("config"),
            e
                .numeric("temperature_sensibility", ea.STATE_SET)
                .withUnit("  C")
                .withValueMin(0.5)
                .withValueMax(5)
                .withValueStep(0.5)
                .withDescription("Set thermostat sensitivity")
                .withCategory("config"),
            e.binary("antifrost", ea.STATE_SET, "ON", "OFF").withDescription("Enable antifrost protection feature").withCategory("config"),
            e
                .binary("window_detection", ea.STATE_SET, "ON", "OFF")
                .withLabel("Open window detection")
                .withDescription("Enable / Disable open window detection feature")
                .withCategory("config"),
            e.enum("window", ea.STATE, ["close", "open"]).withDescription("Indicates if window is open").withCategory("diagnostic"),
            e.power(),
            e.voltage(),
            e.current(),
            e.energy(),
            e.numeric("energy_today", ea.STATE).withUnit("kWh").withDescription("Energy consumed today"),
            e.numeric("energy_yesterday", ea.STATE).withUnit("kWh").withDescription("Energy consumed yesterday"),
            e
                .enum("device_mode_type", ea.STATE, ["four", "six", "switch"])
                .withDescription("Indicates the actual pilot wire mode of the thermostat")
                .withCategory("diagnostic"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "state", tuya.valueConverter.onOff],
                [1, "system_mode", tuya.valueConverterBasic.lookup({heat: true, off: false})],
                [
                    2,
                    "mode",
                    tuya.valueConverterBasic.lookup({
                        comfort: tuya.enum(0),
                        eco: tuya.enum(1),
                        antifrost: tuya.enum(2),
                        off: tuya.enum(3),
                        comfort_1: tuya.enum(4),
                        comfort_2: tuya.enum(5),
                        program: tuya.enum(6),
                        manual: tuya.enum(7),
                    }),
                ],
                [
                    2,
                    "preset",
                    tuya.valueConverterBasic.lookup({
                        comfort: tuya.enum(0),
                        eco: tuya.enum(1),
                        antifrost: tuya.enum(2),
                        off: tuya.enum(3),
                        comfort_1: tuya.enum(4),
                        comfort_2: tuya.enum(5),
                        program: tuya.enum(6),
                        manual: tuya.enum(7),
                    }),
                ],
                [11, "power", tuya.valueConverter.raw],
                [16, "local_temperature", tuya.valueConverter.divideBy10],
                [
                    17,
                    "window",
                    tuya.valueConverterBasic.lookup({
                        close: tuya.enum(0),
                        open: tuya.enum(1),
                    }),
                ],
                [19, "local_temperature_calibration", tuya.valueConverter.localTempCalibration2],
                [20, "fault", tuya.valueConverter.raw],
                [29, "window_detection", tuya.valueConverter.onOff],
                [39, "child_lock", tuya.valueConverter.lockUnlock],
                [50, "current_heating_setpoint", tuya.valueConverter.divideBy10],
                [101, "voltage", tuya.valueConverter.divideBy10],
                [102, "current", tuya.valueConverter.divideBy1000],
                [103, "temperature_sensibility", tuya.valueConverter.divideBy10],
                [104, "energy_today", tuya.valueConverter.raw],
                [105, "energy_yesterday", tuya.valueConverter.raw],
                [
                    106,
                    "device_mode_type",
                    tuya.valueConverterBasic.lookup({
                        four: tuya.enum(0),
                        six: tuya.enum(1),
                        switch: tuya.enum(2),
                    }),
                ],
                [107, "energy", tuya.valueConverter.raw],
                [108, "week_program_1", tuya.valueConverter.raw],
                [109, "week_program_2", tuya.valueConverter.raw],
                [110, "week_program_3", tuya.valueConverter.raw],
                [111, "week_program_4", tuya.valueConverter.raw],
                [112, "week_program_5", tuya.valueConverter.raw],
                [113, "week_program_6", tuya.valueConverter.raw],
                [114, "week_program_7", tuya.valueConverter.raw],
                [115, "set_temp_switch", tuya.valueConverter.onOff],
                [115, "radiators_without_integrated_regulation", tuya.valueConverter.onOff],
                [116, "antifrost", tuya.valueConverter.onOff],
                [117, "eco_temperature", tuya.valueConverter.divideBy10],
                [118, "comfort_temperature", tuya.valueConverter.divideBy10],
                [119, "antifrost_temperature", tuya.valueConverter.divideBy10],
                [120, "light", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_ilzkxrav"]),
        model: "TWC-R01",
        vendor: "THALEOS",
        description: "Smart thermostat for electric heater with pilot wire",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.pilot_wire_mode(["comfort", "eco", "antifrost", "off", "comfort_1", "comfort_2"]), // Not using climate here because setpoint is not supported
            e.local_temperature(),
            e
                .numeric("local_temperature_calibration", ea.STATE_SET)
                .withUnit("°C")
                .withValueMin(-8)
                .withValueMax(8)
                .withValueStep(0.5)
                .withDescription("Set temperature calibration"),
            e.binary("eco_mode", ea.STATE_SET, "ON", "OFF").withDescription("Enables/disables the weekly program."),
            e.open_window(),
            e.open_window_temperature(),
            e.power(),
            e.voltage(),
            e.current(),
            e.energy(),
            e.numeric("energy_today", ea.STATE).withUnit("kWh").withDescription("Energy consumed today"),
            e.numeric("energy_yesterday", ea.STATE).withUnit("kWh").withDescription("Energy consumed yesterday"),
            e.binary("device_mode_type", ea.STATE_SET, "ON", "OFF").withDescription("Set pilot wire mode to 6 (includes comfort 1 & 2)."),
        ],
        meta: {
            tuyaDatapoints: [
                [
                    2,
                    "pilot_wire_mode",
                    tuya.valueConverterBasic.lookup({
                        comfort: tuya.enum(0),
                        eco: tuya.enum(1),
                        antifrost: tuya.enum(2),
                        off: tuya.enum(3),
                        comfort_1: tuya.enum(4),
                        comfort_2: tuya.enum(5),
                    }),
                ],
                [11, "power", tuya.valueConverter.raw],
                [16, "local_temperature", tuya.valueConverter.divideBy10],
                [19, "local_temperature_calibration", tuya.valueConverter.localTempCalibration2],
                [20, "fault", tuya.valueConverter.raw],
                [40, "eco_mode", tuya.valueConverter.onOff],
                [101, "week_program", tuya.valueConverter.raw],
                [102, "work_state", tuya.valueConverter.raw],
                [103, "week_program_1", tuya.valueConverter.raw],
                [104, "week_program_2", tuya.valueConverter.raw],
                [105, "week_program_3", tuya.valueConverter.raw],
                [106, "week_program_4", tuya.valueConverter.raw],
                [107, "week_program_5", tuya.valueConverter.raw],
                [108, "week_program_6", tuya.valueConverter.raw],
                [109, "week_program_7", tuya.valueConverter.raw],
                [110, "open_window", tuya.valueConverter.onOff],
                [111, "open_window_temperature", tuya.valueConverter.raw],
                [112, "window_time", tuya.valueConverter.raw],
                [113, "window_timeout", tuya.valueConverter.raw],
                [114, "device_mode_type", tuya.valueConverter.onOff],
                [115, "voltage", tuya.valueConverter.divideBy10],
                [116, "current", tuya.valueConverter.divideBy1000],
                [117, "energy", tuya.valueConverter.raw],
                [119, "energy_today", tuya.valueConverter.raw],
                [120, "energy_yesterday", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE284_r3szw0xr"]),
        model: "TS0601_cover_11",
        vendor: "Tuya",
        description: "Cover motor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.cover_position().setAccess("position", ea.STATE_SET),
            e
                .enum("dot_mode", ea.STATE_SET, ["single", "multi"])
                .withDescription("Dot mode"), // DP 104
            e
                .enum("direction", ea.STATE_SET, ["normal", "reversed"])
                .withDescription("Motor direction"), // DP 11
            e
                .enum("border", ea.STATE_SET, ["UP", "Down", "Delete"])
                .withDescription("Border mode"), // DP 16
            e
                .numeric("speed", ea.STATE_SET)
                .withValueMin(1)
                .withValueMax(5)
                .withDescription("Motor speed"), // DP 103
            e.text("work_state", ea.STATE),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "state", tuya.valueConverterBasic.lookup({OPEN: tuya.enum(0), STOP: tuya.enum(1), CLOSE: tuya.enum(2)})],
                [3, "work_state", tuya.valueConverterBasic.lookup({opening: tuya.enum(0), closing: tuya.enum(1), stopped: tuya.enum(2)})],
                [9, "position", tuya.valueConverter.coverPositionInverted],
                [8, "position", tuya.valueConverter.coverPositionInverted],
                [103, "speed", tuya.valueConverter.raw],
                [104, "dot_mode", tuya.valueConverterBasic.lookup({single: tuya.enum(0), multi: tuya.enum(1)})],
                [11, "direction", tuya.valueConverterBasic.lookup({normal: tuya.enum(0), reversed: tuya.enum(1)})],
                [16, "border", tuya.valueConverterBasic.lookup({Up: tuya.enum(0), Down: tuya.enum(1), Delete: tuya.enum(2)})],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE284_k7p2q5d9", "_TZE284_65gzcss7", "_TZE284_0ints6wl", "_TZE284_yzr43ayq"]),
        model: "ZS-300Z",
        vendor: "Arteco",
        description: "Soil moisture sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        whiteLabel: [
            tuya.whitelabel("Arteco", "ZS-302Z", "Soil moisture sensor", ["_TZE284_65gzcss7"]),
            tuya.whitelabel("Arteco", "ZS-304Z", "Soil moisture sensor", ["_TZE284_0ints6wl", "_TZE284_yzr43ayq"]),
        ],
        exposes: [
            e.enum("water_warning", ea.STATE, ["none", "alarm"]).withDescription("Water shortage warning"),
            e.enum("battery_state", ea.STATE, ["low", "middle", "high"]).withDescription("low: 16.67%, middle:16.68-83.33%, high: 83.34-100%"),
            e.soil_moisture(),
            e.temperature(),
            e.humidity(),
            e.illuminance(),
            tuya.exposes.soilSampling(),
            tuya.exposes.soilCalibration(),
            tuya.exposes.humidityCalibration(),
            e
                .numeric("illuminance_calibration", ea.STATE_SET)
                .withValueMin(-1000)
                .withValueMax(1000)
                .withValueStep(1)
                .withUnit("lx")
                .withDescription("Illuminance calibration"),
            tuya.exposes.temperatureCalibration(),
            tuya.exposes.soilWarning(),
        ],
        meta: {
            tuyaDatapoints: [
                [3, "soil_moisture", tuya.valueConverter.raw],
                [5, "temperature", tuya.valueConverter.divideBy10],
                [101, "humidity", tuya.valueConverter.raw],
                [102, "illuminance", tuya.valueConverter.raw],
                [14, "battery_state", tuya.valueConverterBasic.lookup({low: tuya.enum(0), middle: tuya.enum(1), high: tuya.enum(2)})],
                [103, "soil_sampling", tuya.valueConverter.raw],
                [104, "soil_calibration", tuya.valueConverter.raw],
                [105, "humidity_calibration", tuya.valueConverter.raw],
                [106, "illuminance_calibration", tuya.valueConverter.raw],
                [107, "temperature_calibration", tuya.valueConverter.divideBy10],
                [110, "soil_warning", tuya.valueConverter.raw],
                [111, "water_warning", tuya.valueConverterBasic.lookup({none: tuya.enum(0), alarm: tuya.enum(1)})],
            ],
        },
    },
    {
        zigbeeModel: ["ZG-204ZK"],
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_ka8l86iu", "_TZE200_zbfmvj13"]),
        model: "ZG-204ZK",
        vendor: "HOBEIAN",
        description: "24Ghz human presence sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.presence(),
            e.illuminance(),
            e.battery(),
            e
                .numeric("fading_time", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(28800)
                .withValueStep(1)
                .withUnit("s")
                .withDescription("Presence keep time"),
            e
                .numeric("static_detection_distance", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(5)
                .withValueStep(0.01)
                .withUnit("m")
                .withDescription("Static detection distance"),
            e
                .numeric("static_detection_sensitivity", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(10)
                .withValueStep(1)
                .withUnit("x")
                .withDescription("Static detection sensitivity"),
            e
                .numeric("motion_detection_sensitivity", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(10)
                .withValueStep(1)
                .withUnit("x")
                .withDescription("Motion detection sensitivity (Firmware version>=0122052017)"),
            e.binary("indicator", ea.STATE_SET, "ON", "OFF").withDescription("LED indicator mode"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "presence", tuya.valueConverter.trueFalse1],
                [102, "fading_time", tuya.valueConverter.raw],
                [4, "static_detection_distance", tuya.valueConverter.divideBy100],
                [2, "static_detection_sensitivity", tuya.valueConverter.raw],
                [107, "indicator", tuya.valueConverter.onOff],
                [123, "motion_detection_sensitivity", tuya.valueConverter.raw],
                [121, "battery", tuya.valueConverter.raw],
                [106, "illuminance", tuya.valueConverter.raw],
            ],
        },
    },
    {
        zigbeeModel: ["ZG-204ZE"],
        fingerprint: [
            {modelID: "CK-BL702-MWS-01(7016)", manufacturerName: "ZG-204ZE"},
            {modelID: "TS0601", manufacturerName: "_TZE200_cq8lu23i"},
            {modelID: "TS0601", manufacturerName: "_TZE200_4pm4pekt"},
        ],
        model: "ZG-204ZE",
        vendor: "HOBEIAN",
        description: "10G mw motion detection",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.presence(),
            e.illuminance(),
            e.battery(),
            e
                .numeric("fading_time", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(28800)
                .withValueStep(1)
                .withUnit("s")
                .withDescription("Motion keep time"),
            e.binary("indicator", ea.STATE_SET, "ON", "OFF").withDescription("LED indicator mode"),
            e
                .numeric("motion_detection_sensitivity", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(19)
                .withValueStep(1)
                .withUnit("x")
                .withDescription("The larger the value, the more sensitive it is (refresh and update only while active)"),
            e
                .numeric("illuminance_interval", ea.STATE_SET)
                .withValueMin(1)
                .withValueMax(720)
                .withValueStep(1)
                .withUnit("minutes")
                .withDescription("Light sensing sampling(refresh and update only while active)"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "presence", tuya.valueConverter.trueFalse1],
                [102, "fading_time", tuya.valueConverter.raw],
                [2, "motion_detection_sensitivity", tuya.valueConverter.raw],
                [108, "indicator", tuya.valueConverter.onOff],
                [110, "battery", tuya.valueConverter.raw],
                [106, "illuminance", tuya.valueConverter.raw],
                [107, "illuminance_interval", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0049", ["_TZ3000_kz1anoi8"]),
        model: "HZ-WT02",
        vendor: "Haozee",
        description: "Water valve",
        toZigbee: [tzLocal.ts0049_countdown],
        fromZigbee: [fzLocal.ts0049_countdown],
        extend: [
            m.battery(),
            m.onOff({powerOnBehavior: false}),
            m.deviceAddCustomCluster("manuSpecificTuyaE001", {
                ID: 0xe001,
                attributes: {},
                commands: {
                    setCountdown: {
                        ID: 0xfe,
                        parameters: [{name: "data", type: 1008}],
                    },
                },
                commandsResponse: {},
            }),
        ],
        exposes: [
            e
                .numeric("water_countdown", ea.STATE_SET)
                .withValueMin(1)
                .withValueMax(1440)
                .withValueStep(1)
                .withUnit("minute")
                .withDescription("Watering countdown to turn device off after a certain time"),
        ],
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE284_7zazvlyn", "_TZE284_idn2htgu"]),
        model: "F3-Pro",
        vendor: "Tuya",
        description: "Smart panel, 4-gang switch with scene, dimmer, and curtain control",
        extend: [tuya.modernExtend.tuyaBase({dp: true, forceTimeUpdates: true, queryOnConfigure: true})],

        endpoint: (device) => {
            return {l1: 1, l2: 1, l3: 1, l4: 1, l5: 1, l6: 1, l7: 1, l8: 1};
        },

        exposes: [
            e.binary("backlight_switch", ea.STATE_SET, "ON", "OFF").withDescription("Panel screen on/off"),

            tuya.exposes.switch().withEndpoint("l1"),
            tuya.exposes.switch().withEndpoint("l2"),
            tuya.exposes.switch().withEndpoint("l3"),
            tuya.exposes.switch().withEndpoint("l4"),

            e.text("switch_name", ea.STATE_SET).withEndpoint("l1").withDescription("Name for Switch 1"),
            e.text("switch_name", ea.STATE_SET).withEndpoint("l2").withDescription("Name for Switch 2"),
            e.text("switch_name", ea.STATE_SET).withEndpoint("l3").withDescription("Name for Switch 3"),
            e.text("switch_name", ea.STATE_SET).withEndpoint("l4").withDescription("Name for Switch 4"),

            e.text("scene_name", ea.STATE_SET).withEndpoint("l1").withDescription("Name for Scene 1"),
            e.text("scene_name", ea.STATE_SET).withEndpoint("l2").withDescription("Name for Scene 2"),
            e.text("scene_name", ea.STATE_SET).withEndpoint("l3").withDescription("Name for Scene 3"),
            e.text("scene_name", ea.STATE_SET).withEndpoint("l4").withDescription("Name for Scene 4"),
            e.text("scene_name", ea.STATE_SET).withEndpoint("l5").withDescription("Name for Scene 5"),
            e.text("scene_name", ea.STATE_SET).withEndpoint("l6").withDescription("Name for Scene 6"),
            e.text("scene_name", ea.STATE_SET).withEndpoint("l7").withDescription("Name for Scene 7"),
            e.text("scene_name", ea.STATE_SET).withEndpoint("l8").withDescription("Name for Scene 8"),

            e.text("cover_name", ea.STATE_SET).withEndpoint("l1").withDescription("Name for Cover 1"),
            e.text("cover_name", ea.STATE_SET).withEndpoint("l2").withDescription("Name for Cover 2"),
            e.text("cover_name", ea.STATE_SET).withEndpoint("l3").withDescription("Name for Cover 3"),
            e.text("cover_name", ea.STATE_SET).withEndpoint("l4").withDescription("Name for Cover 4"),

            e.text("led_switch_name", ea.STATE_SET).withEndpoint("l1").withDescription("Name for LED Switch 1"),
            e.text("led_switch_name", ea.STATE_SET).withEndpoint("l2").withDescription("Name for LED Switch 2"),
            e.text("led_switch_name", ea.STATE_SET).withEndpoint("l3").withDescription("Name for LED Switch 3"),
            e.text("led_switch_name", ea.STATE_SET).withEndpoint("l4").withDescription("Name for LED Switch 4"),

            e.action(["scene_1", "scene_2", "scene_3", "scene_4", "scene_5", "scene_6", "scene_7", "scene_8"]),

            e.binary("led_switch", ea.ALL, "ON", "OFF").withEndpoint("l1").withDescription("Switch of LED 1"),
            e.numeric("led_warm", ea.STATE_SET).withEndpoint("l1").withDescription("Color temperature of LED 1").withValueMin(1).withValueMax(100),
            e.numeric("led_bright", ea.STATE_SET).withEndpoint("l1").withDescription("Brightness of LED 1").withValueMin(1).withValueMax(100),

            e.binary("led_switch", ea.ALL, "ON", "OFF").withEndpoint("l2").withDescription("Switch of LED 2"),
            e.numeric("led_warm", ea.STATE_SET).withEndpoint("l2").withDescription("Color temperature of LED 2").withValueMin(1).withValueMax(100),
            e.numeric("led_bright", ea.STATE_SET).withEndpoint("l2").withDescription("Brightness of LED 2").withValueMin(1).withValueMax(100),

            e.binary("led_switch", ea.ALL, "ON", "OFF").withEndpoint("l3").withDescription("Switch of LED 3"),
            e.numeric("led_warm", ea.STATE_SET).withEndpoint("l3").withDescription("Color temperature of LED 3").withValueMin(1).withValueMax(100),
            e.numeric("led_bright", ea.STATE_SET).withEndpoint("l3").withDescription("Brightness of LED 3").withValueMin(1).withValueMax(100),

            e.binary("led_switch", ea.ALL, "ON", "OFF").withEndpoint("l4").withDescription("Switch of LED 4"),
            e.numeric("led_warm", ea.STATE_SET).withEndpoint("l4").withDescription("Color temperature of LED 4").withValueMin(1).withValueMax(100),
            e.numeric("led_bright", ea.STATE_SET).withEndpoint("l4").withDescription("Brightness of LED 4").withValueMin(1).withValueMax(100),

            e.enum("cover_state", ea.STATE_SET, ["open", "stop", "close"]).withEndpoint("l1").withDescription("State of Cover 1"),
            e
                .numeric("cover_position", ea.STATE_SET)
                .withEndpoint("l1")
                .withDescription("Position of Cover 1")
                .withUnit("%")
                .withValueMin(0)
                .withValueMax(100),

            e.enum("cover_state", ea.STATE_SET, ["open", "stop", "close"]).withEndpoint("l2").withDescription("State of Cover 2"),
            e
                .numeric("cover_position", ea.STATE_SET)
                .withEndpoint("l2")
                .withDescription("Position of Cover 2")
                .withUnit("%")
                .withValueMin(0)
                .withValueMax(100),

            e.enum("cover_state", ea.STATE_SET, ["open", "stop", "close"]).withEndpoint("l3").withDescription("State of Cover 3"),
            e
                .numeric("cover_position", ea.STATE_SET)
                .withEndpoint("l3")
                .withDescription("Position of Cover 3")
                .withUnit("%")
                .withValueMin(0)
                .withValueMax(100),

            e.enum("cover_state", ea.STATE_SET, ["open", "stop", "close"]).withEndpoint("l4").withDescription("State of Cover 4"),
            e
                .numeric("cover_position", ea.STATE_SET)
                .withEndpoint("l4")
                .withDescription("Position of Cover 4")
                .withUnit("%")
                .withValueMin(0)
                .withValueMax(100),
        ],

        meta: {
            multiEndpoint: true,
            tuyaDatapoints: [
                [1, "action", tuya.valueConverter.static("scene_1")],
                [2, "action", tuya.valueConverter.static("scene_2")],
                [3, "action", tuya.valueConverter.static("scene_3")],
                [4, "action", tuya.valueConverter.static("scene_4")],
                [5, "action", tuya.valueConverter.static("scene_5")],
                [6, "action", tuya.valueConverter.static("scene_6")],
                [7, "action", tuya.valueConverter.static("scene_7")],
                [8, "action", tuya.valueConverter.static("scene_8")],

                [102, "led_bright_l1", tuya.valueConverter.raw],
                [103, "led_bright_l2", tuya.valueConverter.raw],
                [105, "led_bright_l3", tuya.valueConverter.raw],
                [107, "led_bright_l4", tuya.valueConverter.raw],

                [109, "led_warm_l1", tuya.valueConverter.raw],
                [110, "led_warm_l2", tuya.valueConverter.raw],
                [111, "led_warm_l3", tuya.valueConverter.raw],
                [112, "led_warm_l4", tuya.valueConverter.raw],

                [113, "cover_position_l1", tuya.valueConverter.raw],
                [114, "cover_position_l2", tuya.valueConverter.raw],
                [115, "cover_position_l3", tuya.valueConverter.raw],
                [116, "cover_position_l4", tuya.valueConverter.raw],

                [117, "led_switch_l1", tuya.valueConverter.onOff],
                [118, "led_switch_l2", tuya.valueConverter.onOff],
                [119, "led_switch_l3", tuya.valueConverter.onOff],
                [120, "led_switch_l4", tuya.valueConverter.onOff],

                [121, "state_l1", tuya.valueConverter.onOff],
                [122, "state_l2", tuya.valueConverter.onOff],
                [123, "state_l3", tuya.valueConverter.onOff],
                [124, "state_l4", tuya.valueConverter.onOff],

                [125, "led_switch_name_l1", tuya.valueConverter.utf16BEHexString],
                [126, "led_switch_name_l2", tuya.valueConverter.utf16BEHexString],
                [127, "led_switch_name_l3", tuya.valueConverter.utf16BEHexString],
                [128, "led_switch_name_l4", tuya.valueConverter.utf16BEHexString],

                [129, "cover_name_l1", tuya.valueConverter.utf16BEHexString],
                [130, "cover_name_l2", tuya.valueConverter.utf16BEHexString],
                [131, "cover_name_l3", tuya.valueConverter.utf16BEHexString],
                [132, "cover_name_l4", tuya.valueConverter.utf16BEHexString],

                [133, "cover_state_l1", tuya.valueConverterBasic.lookup({open: tuya.enum(0), stop: tuya.enum(1), close: tuya.enum(2)})],
                [134, "cover_state_l2", tuya.valueConverterBasic.lookup({open: tuya.enum(0), stop: tuya.enum(1), close: tuya.enum(2)})],
                [135, "cover_state_l3", tuya.valueConverterBasic.lookup({open: tuya.enum(0), stop: tuya.enum(1), close: tuya.enum(2)})],
                [136, "cover_state_l4", tuya.valueConverterBasic.lookup({open: tuya.enum(0), stop: tuya.enum(1), close: tuya.enum(2)})],

                [137, "switch_name_l1", tuya.valueConverter.utf16BEHexString],
                [138, "switch_name_l2", tuya.valueConverter.utf16BEHexString],
                [139, "switch_name_l3", tuya.valueConverter.utf16BEHexString],
                [140, "switch_name_l4", tuya.valueConverter.utf16BEHexString],

                [141, "scene_name_l1", tuya.valueConverter.utf16BEHexString],
                [142, "scene_name_l2", tuya.valueConverter.utf16BEHexString],
                [143, "scene_name_l3", tuya.valueConverter.utf16BEHexString],
                [144, "scene_name_l4", tuya.valueConverter.utf16BEHexString],
                [145, "scene_name_l5", tuya.valueConverter.utf16BEHexString],
                [146, "scene_name_l6", tuya.valueConverter.utf16BEHexString],
                [147, "scene_name_l7", tuya.valueConverter.utf16BEHexString],
                [148, "scene_name_l8", tuya.valueConverter.utf16BEHexString],

                [149, "backlight_switch", tuya.valueConverter.onOff],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_mvtclclq"]),
        model: "DS-1450WN",
        vendor: "Tuya",
        description: "Smart Zigbee Switch with power monitoring",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],

        exposes: [
            e.switch().withEndpoint("usb_a"),
            e.switch().withEndpoint("usb_c"),
            e.switch().withEndpoint("plug_1"),
            e.switch().withEndpoint("plug_2"),
            e
                .numeric("countdown_usb_a", ea.STATE_SET)
                .withLabel("USB A Countdown")
                .withValueMin(0)
                .withValueMax(86400)
                .withValueStep(1)
                .withDescription("Countdown timer for USB A")
                .withUnit("s"),
            e
                .numeric("countdown_usb_c", ea.STATE_SET)
                .withLabel("USB C Countdown")
                .withValueMin(0)
                .withValueMax(86400)
                .withValueStep(1)
                .withDescription("Countdown timer for USB C")
                .withUnit("s"),
            e
                .numeric("countdown_plug_1", ea.STATE_SET)
                .withLabel("Plug 1 Countdown")
                .withValueMin(0)
                .withValueMax(86400)
                .withValueStep(1)
                .withDescription("Countdown timer for Plug 1")
                .withUnit("s"),
            e
                .numeric("countdown_plug_2", ea.STATE_SET)
                .withLabel("Plug 2 Countdown")
                .withValueMin(0)
                .withValueMax(86400)
                .withValueStep(1)
                .withDescription("Countdown timer for Plug 2")
                .withUnit("s"),
            e.enum("relay_status", ea.STATE_SET, ["memory", "on", "off"]).withLabel("Relay Status").withDescription("Set the Relay Status"),
            e
                .binary("switch_backlight", ea.STATE_SET, "ON", "OFF")
                .withLabel("Switch Backlight")
                .withDescription("Enables/disables backlight indicator"),
            e.current(),
            e.power(),
            e.voltage(),
            e.produced_energy(),
            e.child_lock(),
        ],
        endpoint: (_) => ({
            default: 1,
            usb_a: 1,
            usb_c: 1,
            plug_1: 1,
            plug_2: 1,
        }),
        meta: {
            multiEndpoint: true,
            tuyaDatapoints: [
                [1, "state_usb_a", tuya.valueConverter.onOff],
                [2, "state_usb_c", tuya.valueConverter.onOff],
                [3, "state_plug_1", tuya.valueConverter.onOff],
                [4, "state_plug_2", tuya.valueConverter.onOff],
                [7, "countdown_usb_a", tuya.valueConverter.countdown],
                [8, "countdown_usb_c", tuya.valueConverter.countdown],
                [9, "countdown_plug_1", tuya.valueConverter.countdown],
                [10, "countdown_plug_2", tuya.valueConverter.countdown],
                [14, "relay_status", tuya.valueConverterBasic.lookup({memory: tuya.enum(0), on: tuya.enum(1), off: tuya.enum(2)})],
                [16, "switch_backlight", tuya.valueConverter.onOff],
                [21, "current", tuya.valueConverter.divideBy10],
                [22, "power", tuya.valueConverter.divideBy10],
                [23, "voltage", tuya.valueConverter.divideBy10],
                [105, "produced_energy", tuya.valueConverter.divideBy10],
                [106, "child_lock", tuya.valueConverter.lockUnlock],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE204_vjpaih9f", "_TZE284_vjpaih9f"]),
        model: "TS0601_thermostat_14",
        vendor: "AVATTO",
        description: "Thermostatic radiator valve",
        extend: [tuya.modernExtend.tuyaBase({dp: true, forceTimeUpdates: true, timeStart: "1970"})],
        exposes: [
            e
                .climate()
                .withSetpoint("current_heating_setpoint", 5, 35, 0.5, ea.STATE_SET)
                .withLocalTemperature(ea.STATE)
                .withPreset(["manual", "schedule", "eco", "comfort", "frost_protection", "holiday", "off"])
                .withRunningState(["idle", "heat"], ea.STATE)
                .withLocalTemperatureCalibration(-9.5, 9.5, 0.5, ea.STATE_SET),
            e.child_lock(),
            e.battery(),
            e.battery_low(),
            e.window_detection(),
            ...tuya.exposes.scheduleAllDays(ea.STATE_SET, "HH:MM/C HH:MM/C HH:MM/C HH:MM/C HH:MM/C HH:MM/C"),
            e.eco_temperature().withValueMin(5).withValueMax(35).withValueStep(0.5),
            e.comfort_temperature().withValueMin(5).withValueMax(35).withValueStep(0.5),
            e.holiday_temperature().withValueMin(5).withValueMax(35).withValueStep(0.5),
            e.binary("window_open", ea.STATE, "OPEN", "CLOSE"),
            e.binary("frost_protection", ea.STATE_SET, "ON", "OFF"),
            e.binary("scale_protection", ea.STATE_SET, "ON", "OFF"),
            e.numeric("error", ea.STATE).withDescription('If NTC is damaged, "Er" will be on the TRV display.'),
            e.binary("boost_heating", ea.STATE_SET, "ON", "OFF").withDescription("Boost Heating: the device will enter the boost heating mode."),
        ],
        meta: {
            tuyaDatapoints: [
                [
                    2,
                    "preset",
                    tuya.valueConverterBasic.lookup({
                        manual: tuya.enum(0),
                        schedule: tuya.enum(1),
                        eco: tuya.enum(2),
                        comfort: tuya.enum(3),
                        frost_protection: tuya.enum(4),
                        holiday: tuya.enum(5),
                        off: tuya.enum(6),
                    }),
                ],
                [3, "running_state", tuya.valueConverterBasic.lookup({idle: 0, heat: 1})],
                [4, "current_heating_setpoint", tuya.valueConverter.divideBy10],
                [5, "local_temperature", tuya.valueConverter.divideBy10],
                [6, "battery", tuya.valueConverter.raw],
                [7, "child_lock", tuya.valueConverter.lockUnlock],
                [14, "window_detection", tuya.valueConverter.onOff],
                [15, "window_open", tuya.valueConverterBasic.lookup({CLOSE: 0, OPEN: 1})],
                [21, "holiday_temperature", tuya.valueConverter.divideBy10],
                [28, "schedule_monday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(1)],
                [29, "schedule_tuesday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(2)],
                [30, "schedule_wednesday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(3)],
                [31, "schedule_thursday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(4)],
                [32, "schedule_friday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(5)],
                [33, "schedule_saturday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(6)],
                [34, "schedule_sunday", tuya.valueConverter.thermostatScheduleDayMultiDPWithDayNumber(7)],
                [35, "battery_low", tuya.valueConverter.errorOrBatteryLow],
                [36, "frost_protection", tuya.valueConverter.onOff],
                [47, "local_temperature_calibration", tuya.valueConverter.localTempCalibration3],
                [103, "eco_temperature", tuya.valueConverter.divideBy10],
                [104, "comfort_temperature", tuya.valueConverter.divideBy10],
                [105, "frost_protection_temperature", tuya.valueConverter.divideBy10],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_snfdqllf"]),
        model: "AETZ01_AC",
        vendor: "Tuya",
        description: "Smart air conditioner",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.binary("state", ea.STATE_SET, "ON", "OFF").withDescription("Turn AC ON/OFF"),
            e
                .climate()
                .withLocalTemperature(ea.STATE)
                .withSetpoint("current_heating_setpoint", 16, 30, 1, ea.STATE_SET)
                .withSystemMode(["cool", "dry", "fan_only"], ea.STATE_SET)
                .withFanMode(["low", "medium", "high", "auto"], ea.STATE_SET)
                .withSwingMode(["off", "on"], ea.STATE_SET),
            e.binary("sleep", ea.STATE_SET, "ON", "OFF").withDescription("Sleep Mode"),
            e.binary("turbo", ea.STATE_SET, "ON", "OFF").withDescription("Turbo Mode"),
            e.binary("quiet", ea.STATE_SET, "ON", "OFF").withDescription("Quiet Mode"),
            e.power(),
            e.energy(),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "state", tuya.valueConverter.onOff],
                [30, "swing_mode", tuya.valueConverter.onOff],
                [2, "current_heating_setpoint", tuya.valueConverter.raw],
                [3, "local_temperature", tuya.valueConverter.raw],
                [4, "system_mode", tuya.valueConverterBasic.lookup({cool: tuya.enum(0), dry: tuya.enum(1), fan_only: tuya.enum(2)})],
                [5, "fan_mode", tuya.valueConverterBasic.lookup({low: tuya.enum(0), medium: tuya.enum(1), high: tuya.enum(2), auto: tuya.enum(3)})],
                [25, "sleep", tuya.valueConverter.onOff],
                [102, "turbo", tuya.valueConverter.onOff],
                [103, "quiet", tuya.valueConverter.onOff],
                [116, "power", tuya.valueConverter.raw],
                [117, "energy", tuya.valueConverter.raw],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE284_gyzlwu5q"]),
        model: "228WZH",
        vendor: "Tuya",
        description: "Smoke detector with temperature and humidity sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.smoke(),
            e.temperature(),
            e.humidity(),
            tuya.exposes.batteryState(),
            e.enum("self_test", ea.STATE, ["Checking", "Check success", "Check failure"]).withDescription("Test button status"),
            e.enum("silence", ea.STATE_SET, ["ON"]).withDescription("Silence alarm"),
            e.text("version", ea.STATE_GET).withDescription("Device version"),
        ],
        meta: {
            // All datapoints go in here
            tuyaDatapoints: [
                [1, "smoke", tuya.valueConverter.trueFalse0],
                [9, "self_test", tuya.valueConverterBasic.lookup({checking: 0, check_success: 1, check_failure: 2})],
                [14, "battery_state", tuya.valueConverter.batteryState],
                [16, "silence", tuya.valueConverter.onOff],
                [23, "temperature", tuya.valueConverter.divideBy10],
                [24, "humidity", tuya.valueConverter.raw],
                [103, "version", tuya.valueConverter.raw], // maybe!?
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE284_4cqhd2ha", "_TZE200_8ply8mjj"]),
        model: "TZE284_4cqhd2ha",
        vendor: "Girier",
        description: "Vibration sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        whiteLabel: [tuya.whitelabel("Conecto", "COZIGVS", "Vibration sensor", ["_TZE200_8ply8mjj"])],
        exposes: [
            e.vibration(),
            e
                .numeric("sensitivity", ea.STATE)
                .withValueMin(0)
                .withValueMax(2)
                .withDescription(
                    "Sensitivity of the sensor (single press the button when muted to switch between" +
                        " low (one beep), medium (two beeps) and max (three beeps))",
                ),
            e.text("buzzer_mute", ea.STATE).withDescription("ON when buzzer is muted (double press the button on device to toggle)"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "vibration", tuya.valueConverter.trueFalse1],
                [101, "sensitivity", tuya.valueConverter.raw],
                [103, "buzzer_mute", tuya.valueConverter.onOff],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_fodv6bkr"]),
        model: "RM28-LE",
        vendor: "Ronco",
        description: "Zigbee roller shade motor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        options: [exposes.options.invert_cover()],
        exposes: [
            e.battery(),
            e.cover_position().setAccess("position", ea.STATE_SET),
            e.enum("reverse_direction", ea.STATE_SET, ["forward", "back"]).withDescription("Reverse the motor direction"),
            e.text("work_state", ea.STATE),
            e.enum("click_control", ea.STATE_SET, ["up", "down"]).withDescription("Single motor steps"),
            e.enum("border", ea.STATE_SET, ["up", "down", "up_delete", "down_delete", "remove_top_bottom"]),
            e.binary("motor_fault", ea.STATE, true, false),
        ],
        meta: {
            // All datapoints go in here
            tuyaDatapoints: [
                [
                    1,
                    "state",
                    tuya.valueConverterBasic.lookup({
                        OPEN: tuya.enum(0),
                        STOP: tuya.enum(1),
                        CLOSE: tuya.enum(2),
                    }),
                ],
                [2, "position", tuya.valueConverter.coverPosition],
                [3, "position", tuya.valueConverter.coverPosition],
                [5, "reverse_direction", tuya.valueConverterBasic.lookup({forward: tuya.enum(0), back: tuya.enum(1)})],
                [
                    7,
                    "work_state",
                    tuya.valueConverterBasic.lookup((options) =>
                        options.invert_cover ? {opening: tuya.enum(0), closing: tuya.enum(1)} : {opening: tuya.enum(1), closing: tuya.enum(0)},
                    ),
                ],
                [12, "motor_fault", tuya.valueConverter.trueFalse1],
                [13, "battery", tuya.valueConverter.raw],
                [
                    16,
                    "border",
                    tuya.valueConverterBasic.lookup({
                        up: tuya.enum(0),
                        down: tuya.enum(1),
                        up_delete: tuya.enum(2),
                        down_delete: tuya.enum(3),
                        remove_top_bottom: tuya.enum(4),
                    }),
                ],
                [20, "click_control", tuya.valueConverterBasic.lookup({up: tuya.enum(0), down: tuya.enum(1)})],
            ],
        },
    },
    {
        fingerprint: tuya.fingerprint("TS0601", ["_TZE284_iwyqtclw"]),
        model: "M9Pro",
        vendor: "Tuya",
        description: "Smart 4 gang switch, curtain, smart light or scene. 1x thermostat control",
        exposes: [
            ...[1, 2, 3, 4].map((i) => e.switch().withEndpoint(`l${i}`).setAccess("state", ea.STATE_SET)),
            ...[1, 2, 3].map((i) =>
                e.enum("mode", ea.STATE_SET, ["switch", "scene", "smart_light", "curtain"]).withEndpoint(`l${i}`).withDescription(`Switch ${i} mode`),
            ),
            e
                .enum("mode", ea.STATE_SET, ["switch", "scene", "smart_light", "curtain", "thermostat"])
                .withEndpoint("l4")
                .withDescription("Switch 4 mode"),
            ...[1, 2, 3, 4].map((i) =>
                e.text("name", ea.STATE_SET).withEndpoint(`l${i}`).withDescription(`Name for Switch ${i} (max 8 chars displayed)`),
            ),
            ...[1, 2, 3, 4].map((i) =>
                e.text("scene_name", ea.STATE_SET).withEndpoint(`l${i}`).withDescription(`Scene name for switch ${i} (max 8 chars displayed)`),
            ),
            ...[1, 2, 3, 4].map((i) =>
                e.text("dimmer_name", ea.STATE_SET).withEndpoint(`l${i}`).withDescription(`Smart Light name for switch ${i} (max 8 chars displayed)`),
            ),
            ...[1, 2, 3, 4].map((i) =>
                exposes.binary("dimmer_switch", ea.STATE_SET, "ON", "OFF").withEndpoint(`l${i}`).withDescription(`Smart Light - toggle switch ${i}`),
            ),
            ...[1, 2, 3, 4].map((i) =>
                e.text("curtain_name", ea.STATE_SET).withEndpoint(`l${i}`).withDescription(`Curtain name for switch ${i} (max 8 chars displayed)`),
            ),
            ...[1, 2, 3, 4].map((i) =>
                exposes.binary("curtain_switch", ea.STATE_SET, "ON", "OFF").withEndpoint(`l${i}`).withDescription(`Curtain - toggle switch ${i}`),
            ),
            e.power_on_behavior(["off", "on", "previous"]).withAccess(ea.STATE_SET).withDescription("Whole panel override.").withCategory("config"),
            ...[1, 2, 3, 4].map((i) => e.power_on_behavior(["off", "on", "previous"]).withAccess(ea.STATE_SET).withEndpoint(`l${i}`)),
            exposes.binary("show_weather", ea.STATE_SET, "ON", "OFF").withDescription("Show time and weather (on) or just switch names (off)"),
            exposes.binary("backlight", ea.STATE_SET, "ON", "OFF").withDescription("Button LED backlights"),
            e.enum("show_screen", ea.STATE_SET, ["motion", "on_press", "on"]).withDescription("Screen display mode"),
            // Thermostat - Switch 4 only
            exposes
                .binary("thermostat", ea.STATE_SET, "ON", "OFF")
                .withDescription("Thermostat - toggle switch"),
            e.text("thermostat_name", ea.STATE_SET).withDescription("Name for Thermostat (max 8 chars displayed)"),

            e
                .enum("scene_switch", ea.STATE_SET, [
                    "switch_1",
                    "switch_2",
                    "switch_3",
                    "switch_4",
                    "switch_5",
                    "switch_6",
                    "switch_7",
                    "switch_8",
                    "switch_9",
                ])
                .withDescription("Scene Switch"),
            e.action(["scene_0", "scene_1", "scene_2", "scene_3", "scene_4", "scene_5", "scene_6", "scene_7", "scene_8"]),
            // Set weather
            // Temperature will accept decimal values e.g. 0.1 but display will round off to nearest whole number.
            // Best to handle rounding in HA before passing to z2m.
            e
                .numeric("temperature_1", ea.STATE_SET)
                .withValueMin(-65)
                .withValueMax(99)
                .withDescription("Temperature")
                .withValueStep(0.1),
            // If you need other values to match your weather provider, map them with a template in HA or
            // add a z2m 'External Extension' to override tuya.M8ProTuyaWeatherCondition.
            e
                .enum("condition_1", ea.STATE_SET, Object.keys(tuya.M8ProTuyaWeatherCondition))
                .withDescription("Weather condition"),
        ],
        meta: {
            multiEndpoint: true,
            disableDefaultResponse: true,
            tuyaDatapoints: [
                [1, "action", tuya.valueConverter.static("scene_1")],
                [2, "action", tuya.valueConverter.static("scene_2")],
                [3, "action", tuya.valueConverter.static("scene_3")],
                [4, "action", tuya.valueConverter.static("scene_4")],
                [17, "action", tuya.valueConverter.static("scene_0")],
                [
                    18,
                    "mode_l1",
                    tuya.valueConverterBasic.lookup({
                        switch: tuya.enum(0),
                        scene: tuya.enum(1),
                        smart_light: tuya.enum(2),
                        curtain: tuya.enum(3),
                    }),
                ],
                [
                    19,
                    "mode_l2",
                    tuya.valueConverterBasic.lookup({
                        switch: tuya.enum(0),
                        scene: tuya.enum(1),
                        smart_light: tuya.enum(2),
                        curtain: tuya.enum(3),
                    }),
                ],
                [
                    20,
                    "mode_l3",
                    tuya.valueConverterBasic.lookup({
                        switch: tuya.enum(0),
                        scene: tuya.enum(1),
                        smart_light: tuya.enum(2),
                        curtain: tuya.enum(3),
                    }),
                ],
                [
                    21,
                    "mode_l4",
                    tuya.valueConverterBasic.lookup({
                        switch: tuya.enum(0),
                        scene: tuya.enum(1),
                        smart_light: tuya.enum(2),
                        curtain: tuya.enum(3),
                        thermostat: tuya.enum(4),
                    }),
                ],
                [24, "state_l1", tuya.valueConverter.onOff],
                [25, "state_l2", tuya.valueConverter.onOff],
                [26, "state_l3", tuya.valueConverter.onOff],
                [27, "state_l4", tuya.valueConverter.onOff],
                [36, "show_weather", tuya.valueConverter.onOff],
                // Screen display modes.
                // From Tuya Dev Platform: enum "range": ["relay", "pos", "none"].  These names don't match what's happening on the device
                [
                    37,
                    "show_screen",
                    tuya.valueConverterBasic.lookup({
                        motion: tuya.enum(0), // Screen on/off with motion detection.
                        on_press: tuya.enum(1), // Disable motion detection. Only show screen on physical button press.
                        on: tuya.enum(2), // Screen stays on.
                    }),
                ],

                [38, "power_on_behavior", tuya.valueConverter.powerOnBehaviorEnum], // whole panel
                [39, "power_on_behavior_l1", tuya.valueConverter.powerOnBehaviorEnum],
                [40, "power_on_behavior_l2", tuya.valueConverter.powerOnBehaviorEnum],
                [41, "power_on_behavior_l3", tuya.valueConverter.powerOnBehaviorEnum],
                [42, "power_on_behavior_l4", tuya.valueConverter.powerOnBehaviorEnum],
                [101, "backlight", tuya.valueConverter.onOff], // Buttton backlights
                [
                    102,
                    "scene_switch",
                    tuya.valueConverterBasic.lookup({
                        switch_1: tuya.enum(0),
                        switch_2: tuya.enum(1),
                        switch_3: tuya.enum(2),
                        switch_4: tuya.enum(3),
                        switch_5: tuya.enum(4),
                        switch_6: tuya.enum(5),
                        switch_7: tuya.enum(6),
                        switch_8: tuya.enum(7),
                        switch_9: tuya.enum(8),
                    }),
                ],

                // The M9 Pro only displays first 8 chars of names, but state will hold the whole string.
                // I prefer that the state always equals what is displayed, so trim name to 8 chars.
                // Switch names
                [103, "name_l1", convLocal.nameTrunc],
                [104, "name_l2", convLocal.nameTrunc],
                [105, "name_l3", convLocal.nameTrunc],
                [106, "name_l4", convLocal.nameTrunc],

                // Scene names
                [107, "scene_name_l1", convLocal.nameTrunc],
                [108, "scene_name_l2", convLocal.nameTrunc],
                [109, "scene_name_l3", convLocal.nameTrunc],
                [110, "scene_name_l4", convLocal.nameTrunc],

                // Dimmer names
                [111, "dimmer_name_l1", convLocal.nameTrunc],
                [112, "dimmer_name_l2", convLocal.nameTrunc],
                [113, "dimmer_name_l3", convLocal.nameTrunc],
                [114, "dimmer_name_l4", convLocal.nameTrunc],

                // Curtain names
                [115, "curtain_name_l1", convLocal.nameTrunc],
                [116, "curtain_name_l2", convLocal.nameTrunc],
                [117, "curtain_name_l3", convLocal.nameTrunc],
                [118, "curtain_name_l4", convLocal.nameTrunc],

                [119, "curtain_switch_l1", tuya.valueConverter.onOff],
                [120, "curtain_switch_l2", tuya.valueConverter.onOff],
                [121, "curtain_switch_l3", tuya.valueConverter.onOff],
                [122, "curtain_switch_l4", tuya.valueConverter.onOff],
                [123, "dimmer_switch_l1", tuya.valueConverter.onOff],
                [124, "dimmer_switch_l2", tuya.valueConverter.onOff],
                [125, "dimmer_switch_l3", tuya.valueConverter.onOff],
                [126, "dimmer_switch_l4", tuya.valueConverter.onOff],
                [127, "thermostat", tuya.valueConverter.onOff],
                [128, "thermostat_name", convLocal.nameTrunc],
            ],
        },

        extend: [
            // NOTE: M9 Pro only updates the weather condition and temperature on power cycle and once per hour.
            tuya.modernExtend.tuyaWeatherForecast({includeCurrentWeather: true, numberOfForecastDays: 3, correctForNegativeValues: false}),
            tuya.modernExtend.tuyaBase({
                dp: true,
                timeStart: "1970", // needed else date/time doesn't sync with z2m > 2.6.2
            }),
            m.deviceEndpoints({endpoints: {l1: 1, l2: 1, l3: 1, l4: 1}}),
        ],
    },
    {
        fingerprint: [
            {
                modelID: "TLSR82xx",
                manufacturerName: "TELINK",
                applicationVersion: 0,
                endpoints: [
                    {ID: 1, profileID: 260, deviceID: 0, inputClusters: [0, 3, 1, 6], outputClusters: [4, 5, 4096]},
                    {ID: 2, profileID: 260, deviceID: 0, inputClusters: [0, 3, 6], outputClusters: []},
                ],
            },
        ],
        model: "TLSR82xx_2btn_remote",
        vendor: "Telink",
        description: "2 button remote",
        fromZigbee: [fzLocal.TLSR82xxAction, fz.battery],
        toZigbee: [],
        configure: async (device, coordinatorEndpoint, logger) => {
            await reporting.bind(device.getEndpoint(1), coordinatorEndpoint, ["genOnOff"]);
            await reporting.bind(device.getEndpoint(2), coordinatorEndpoint, ["genOnOff"]);
        },
        exposes: [e.battery(), e.action(["on_1", "off_1", "on_2", "off_2"])],
    },
    {
        fingerprint: tuya.fingerprint("ZP-301Z", ["_TZE284_d4h8j2n6"]),
        model: "ZP-301Z",
        vendor: "Arteco",
        description: "PIR motion sensor light with night light function",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.presence().withDescription("Human presence detected"),
            e.numeric("battery_value", ea.STATE).withDescription("battery value in %").withUnit("%"),
            e.illuminance(),
            e
                .numeric("brightness_value", ea.STATE_SET)
                .withDescription("When the light brightness is activated after the lights are turned on")
                .withUnit("%")
                .withValueMin(5)
                .withValueMax(100)
                .withValueStep(1),
            e
                .numeric("presence_time", ea.STATE_SET)
                .withDescription("How long to wait before turning on the lights after detecting a person and meeting the light conditions")
                .withValueMin(0)
                .withValueMax(60)
                .withUnit("s")
                .withValueStep(1),
            e
                .numeric("presence_delay", ea.STATE_SET)
                .withDescription("How long after no one is detected will the lights turn off")
                .withValueMin(5)
                .withValueMax(120)
                .withUnit("s")
                .withValueStep(1),
            e
                .numeric("illuminance_trigger", ea.STATE_SET)
                .withDescription("Detection is only allowed when the illuminance is less than the current value.")
                .withValueMin(0)
                .withValueMax(10000)
                .withValueStep(1),
            e
                .numeric("detection_cycle", ea.STATE_SET)
                .withDescription("How often is the battery level and illuminance detected")
                .withValueMin(10)
                .withValueMax(1200)
                .withValueStep(5)
                .withUnit("s"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "presence", tuya.valueConverter.trueFalse1],
                [14, "battery_value", tuya.valueConverter.raw],
                [20, "illuminance", tuya.valueConverter.raw],
                [100, "brightness_value", tuya.valueConverter.raw],
                [101, "illuminance_trigger", tuya.valueConverter.raw],
                [102, "presence_time", tuya.valueConverter.raw],
                [103, "presence_delay", tuya.valueConverter.raw],
                [104, "detection_cycle", tuya.valueConverter.raw],
            ],
        },
    },
    {
        zigbeeModel: ["ZG-204ZQ"],
        fingerprint: tuya.fingerprint("TS0601", ["_TZE200_p9zbdqgs"]),
        model: "ZG-204ZQ",
        vendor: "HOBEIAN",
        description: "PIR temperature&humidity sensor",
        extend: [tuya.modernExtend.tuyaBase({dp: true})],
        exposes: [
            e.presence(),
            e.illuminance(),
            e.temperature(),
            e.humidity(),
            tuya.exposes.temperatureUnit(),
            tuya.exposes.temperatureCalibration(),
            tuya.exposes.humidityCalibration(),
            e.battery(),
            e
                .numeric("fading_time", ea.STATE_SET)
                .withValueMin(0)
                .withValueMax(28800)
                .withValueStep(1)
                .withUnit("s")
                .withDescription("Motion keep time"),
            e.binary("indicator", ea.STATE_SET, "ON", "OFF").withDescription("LED indicator mode"),
            e
                .numeric("illuminance_interval", ea.STATE_SET)
                .withValueMin(1)
                .withValueMax(720)
                .withValueStep(1)
                .withUnit("minutes")
                .withDescription("Light sensing sampling(refresh and update only while active)"),
        ],
        meta: {
            tuyaDatapoints: [
                [1, "presence", tuya.valueConverter.trueFalse1],
                [106, "illuminance", tuya.valueConverter.raw],
                [102, "fading_time", tuya.valueConverter.raw],
                [108, "indicator", tuya.valueConverter.onOff],
                [110, "battery", tuya.valueConverter.raw],
                [111, "temperature", tuya.valueConverter.divideBy10],
                [101, "humidity", tuya.valueConverter.raw],
                [109, "temperature_unit", tuya.valueConverter.temperatureUnit],
                [105, "temperature_calibration", tuya.valueConverter.localTempCalibration3],
                [104, "humidity_calibration", tuya.valueConverter.localTempCalibration2],
                [107, "illuminance_interval", tuya.valueConverter.raw],
            ],
        },
    },
];
